CN217489739U - Building blocks module convenient to equipment - Google Patents

Abstract

The utility model relates to a building blocks field, concretely relates to building blocks module convenient to equipment, including the module body, this internal chamber of placing that is provided with of module places the intracavity, can dismantle and be provided with the magnetic bead placing the intracavity, and the surface of module body is provided with the binding face more than three, is provided with connecting portion on the binding face, and two adjacent module bodies are inhaled one kind or two kinds of mode detachably in the continuous mode of linking to each other mode or connecting portion buckle each other through magnetic bead magnetism each other and are linked together. Through setting up binding face more than three, can make on the module body arbitrary binding face and another module body arbitrary binding face can dismantle and link to each other together, can make a plurality of module bodies can build the building blocks structure of many shapes like this. The problem of the connected mode of building blocks module in the past mostly all be limited by the shape of building blocks module and connection position, the building blocks shape that leads to can build receives certain restriction is solved.

Description

Building blocks module convenient to equipment

Technical Field

The utility model relates to a building blocks field, concretely relates to building blocks module convenient to equipment.

Background

The blocks are generally cubic solid wood or plastic toys, generally decorated on each surface with letters or pictures, allowing different arrangements or architectural activities of the blocks in various patterns, developing intelligence for children, making up houses, various animals, etc. The building blocks are helpful for developing intelligence, training the hand-eye coordination ability of children, and the arrangement, the connection, the ring shape, the symmetry and the like of the building blocks are beneficial to the intelligence of the children.

Building blocks module in the past all sets up to circular, square or rectangular shape mostly, and circular building blocks module is all piled up through magnetism. The square or strip-shaped building block modules are mostly connected with two adjacent building block modules through the matching of connecting columns and connecting grooves on two sides or the periphery. Most of these connection methods are limited by the shape of the building block module and the connection position, so that the shape of the building block which can be built is limited.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a building blocks module convenient to equipment solves in the past the connected mode of building blocks module and mostly all receives the restriction in the shape of building blocks module and connection position, leads to the building blocks shape that can build to have received the problem of certain restriction.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model provides a building blocks module convenient to equipment, includes the module body, this internal chamber of placing that is provided with of module, and it can dismantle and be provided with the magnetic bead to place the intracavity, and the surface of module body is provided with binding face more than three, is provided with connecting portion on the binding face, and two adjacent module bodies are inhaled one kind or two kinds of modes detachably in the continuous mode of linkage mode or mutual connecting portion buckle through magnetic bead magnetism each other and are linked together.

Further technical scheme is, the module body is linked to each other by last casing and lower casing buckle and constitutes, it is provided with first reference column in the one side that links to each other with lower casing to go up the casing, first locating hole, first pin thread and first box, the casing corresponds in the one side that links to each other with last casing down and is provided with the second locating hole, the second reference column, second box and second pin thread, when going up casing and lower casing buckle and linking to each other and constitute the module body, first locating column card is located in the second locating hole, the second reference column card is located in the first locating hole, first pin thread and second box buckle link to each other, second pin thread and first box buckle link to each other.

A further technical scheme is that the connecting portion are arranged to be communicated with the communicating hole which penetrates through the binding face and is used for placing the cavity, a clamping groove or a first clamping plate is arranged on the hole wall of the communicating hole, and two adjacent module bodies are connected with the first clamping plate in a clamping mode through the clamping groove.

Further technical scheme is, the buckle groove includes 4 cell bodies, and 4 cell bodies are the cross and distribute along the pore wall of intercommunicating pore, and the both ends of 4 cell bodies are equallyd divide and are do not linked together with binding face and the chamber wall of placing the chamber, and first buckle board sets up to two, and two first buckle board symmetries set up in the both sides of intercommunicating pore wall, and when two adjacent module bodies link to each other, two first buckle boards link to each other with the cell body buckle of two relative settings respectively.

The technical scheme that the one end of the first buckling plate is connected with the hole wall of the communicating hole, the communicating hole is penetrated out of the other end of the first buckling plate, the outer side of the first buckling plate is connected with the locking strip, and when the first buckling plate is connected with the groove body buckle, the locking strip is attached to the wall of the cavity where the cavity is placed.

The technical scheme that the decorative piece is used for decorating the groove body is further characterized by comprising a decorative piece, wherein a connecting piece is arranged on the inner side of the decorative piece, and the connecting piece is clamped in the communicating hole and connected with the groove body buckle.

The technical scheme is that the decorative sheet is a sealing decorative sheet, a plane decorative sheet or a spherical decorative sheet, the sealing decorative sheet is used for sealing the communication hole, the plane decorative sheets are matched with each other to seal the surface of the module body to form a cube, and the spherical decorative sheets are matched with each other to seal the surface of the module body to form a sphere.

Still further technical scheme is that, connecting piece on the piece is decorated to the sphere includes connecting pipe and two second snap-fit boards, and the one end of connecting pipe and the inboard of piece is decorated to the sphere link to each other, and on two second snap-fit board symmetries set up and the outer wall of connecting pipe, when the connecting pipe card was located the intercommunicating pore, two second snap-fit boards linked to each other with the cell body buckle of two relative settings respectively.

Further technical scheme is, the outer wall that encircles the connecting pipe is provided with a plurality of support bars, and the one end of a plurality of support bars all links to each other with the inboard of sphere decorative sheet, and the other end all is provided with the holding surface that is in the coplanar, and when second buckle board and cell body buckle link to each other, binding surface and holding surface laminated each other.

The technical scheme is that the number of the binding surfaces is six, and the binding surfaces are respectively arranged on the upper side, the lower side, the front side, the rear side, the left side and the right side of the module body.

Compared with the prior art, the beneficial effects of the utility model are that: through placing the chamber in this internal setting of module, can alleviate the weight of whole module body through placing the chamber on the one hand, on the other hand can be fine hold the magnetic bead, two adjacent module bodies can be in the same place through the magnetic force absorption of inter attraction between two magnetic beads like this. Set up the binding face through the surface at the module body, can provide fine area of contact for two module bodies through the binding face on the one hand. On the other hand, the buckle connection can be completed through the connecting parts arranged on the mutually abutted surfaces of the two module bodies. Based on these two kinds of connected modes, two module bodies can be selective link to each other through one of them or two kinds of connected modes, through the mode that magnetism links to each other, can build building blocks structure fast, through the mode that the connecting portion buckle links to each other, can promote the stability that building blocks connect. The buckle that links to each other the cooperation connecting portion is inhaled to magnetism through the magnetic bead links to each other, can be convenient for build the building blocks structure of bigger specification. Through setting up binding face more than three, can make on the module body arbitrary binding face and another module body arbitrary binding face can dismantle and link to each other together, can make a plurality of module bodies can build the building blocks structure of many shapes like this. The problem of the connected mode of building blocks module in the past mostly all be limited by the shape of building blocks module and connection position, the building blocks shape that leads to can build receives certain restriction is solved.

Drawings

Fig. 1 is an assembly diagram of an upper case and a lower case of a building block module convenient for assembly according to the present invention.

Fig. 2 is an assembly diagram of the upper and lower shells and magnetic beads of the building block module convenient for assembly.

Fig. 3 is a schematic perspective view of a building block module convenient for assembly according to the present invention.

Fig. 4 is an assembly schematic diagram of the sealing decorative sheet of the building block module convenient for assembly.

Fig. 5 is an assembly diagram of the spherical decorative pieces of the building block module convenient for assembly.

Fig. 6 is a schematic view of the assembly of the planar decorative sheet of the building block module convenient for assembly.

Fig. 7 is an assembly diagram of innovative modular connections of building blocks modules for easy assembly.

Fig. 8 is a schematic view of the building block module convenient for assembling and provided with two module bodies of the first buckle plate.

Fig. 9 is an assembly schematic diagram of another connection mode of two module bodies provided with a first buckle plate of a building block module convenient for assembly according to the present invention.

Fig. 10 is an assembly diagram of six binding surfaces on a module body of a building block module convenient for assembly and six other module bodies of the present invention.

Fig. 11 is the utility model relates to a building blocks module convenient to equipment's two adjacent module bodies of installing spherical surface decorative sheet are through magnetism mode connection schematic diagram of inhaling.

An icon: 1-upper shell, 2-lower shell, 3-placing cavity, 4-binding surface, 5-intercommunicating pore, 6-first positioning column, 7-first male buckle, 8-second positioning hole, 9-second positioning column, 10-second female buckle, 11-second male buckle, 12-magnetic bead, 13-first buckle plate, 14-groove body, 15-lock catch strip, 16-seal decorative sheet, 17-plane decorative sheet, 18-spherical decorative sheet, 19-connecting pipe, 20-second buckle plate and 21-supporting strip.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Fig. 1 to 11 show an embodiment of the present invention.

Example 1:

the utility model provides a building blocks module convenient to equipment, includes the module body, this internal chamber 3 of placing that is provided with of module, and it can dismantle and be provided with magnetic bead 12 to place the intracavity, and the surface of module body is provided with binding face 4 more than three, is provided with connecting portion on binding face 4, and two adjacent module bodies are inhaled one kind or two kinds of modes detachably in the continuous mode of linkage or each other connecting portion buckle through each other's 12 magnetism of magnetic bead and are linked together. Through placing chamber 3 in this internal setting of module, on the one hand can lighten the weight of whole module body through placing chamber 3, and on the other hand can be fine holds magnetic bead 12, and two adjacent module bodies can be in the same place through the magnetic force absorption of inter attraction between two magnetic beads 12 like this. Set up binding face 4 through the surface at the module body, can provide fine area of contact for two module bodies through binding face 4 on the one hand. On the other hand, the snap connection can be completed by the connecting part arranged on the abutting surface 4 of the two module bodies. Based on these two kinds of connected modes, two module bodies can be selective link to each other through one of them or two kinds of connected modes, through the mode that magnetism links to each other, can build building blocks structure fast, through the mode that the connecting portion buckle links to each other, can promote the stability that building blocks connect. The buckle that links to each other cooperation connecting portion is inhaled to magnetism through magnetic bead 12 links to each other, can be convenient for build the building blocks structure of bigger specification. Through setting up binding face 4 more than three, can make on the module body arbitrary binding face 4 and another module body arbitrary binding face 4 can dismantle and link to each other together, can make a plurality of module bodies can build the building blocks structure of many shapes like this. The problem of the connected mode of building blocks module all receive the restriction of the shape of building blocks module and connection position in the past mostly, lead to the building blocks shape that can build to receive certain restriction is solved. The module body sets up to the sphere in conventional setting, can make the surface more mellow and full like this, does not have the stimulation of edges and corners.

Example 2:

on the basis of embodiment 1, the module body comprises upper casing 1 and lower casing 2 buckle, upper casing 1 is provided with first locating column 6 in the one side that links to each other with lower casing 2, first locating hole, first pin thread 7 and first box, lower casing 2 is provided with second locating hole 8 in the one side correspondence that links to each other with upper casing 1, second locating column 9, second box 10 and second pin thread 11, when upper casing 1 links to each other with lower casing 2 buckle and constitutes the module body, first locating column 6 card is located in second locating hole 8, second locating column 9 card is located in first locating hole, first pin thread 7 and second box 10 buckle link to each other, second pin thread 11 and first box buckle link to each other. Through setting up first reference column 6, second reference column 9, first locating hole and second locating hole 8, can be in last casing 1 with casing 2 connection down, through making first reference column 6 and second locating hole 8 align and second reference column 9 and first locating hole align, then through casing 1 and casing 2 down in the subtend extrusion, make first reference column 6 slide in second locating hole 8, and second reference column 9 slides in first locating hole, just can make first male thread 7 and second box 10 and second male thread 11 and first box align each other, and accomplish the buckle gradually and link to each other. Until finally the upper housing 1 and the lower housing 2 are snap-fitted together.

In a conventional arrangement, the upper and lower housings 1, 2 may be provided to be identical in structure. Therefore, the first positioning column 6, the first positioning hole, the first male buckle 7 and the first female buckle are symmetrically arranged into two groups, and the second positioning hole 8, the second positioning column 9, the second female buckle 10 and the second male buckle 11 are also symmetrically arranged into two groups. Thus, the upper housing 1 and the lower housing 2 are aligned and pressed.

Example 3:

on the basis of any one of the above embodiments, the connecting portion is provided with a communicating hole 5 penetrating through the attaching surface 4 and the placing cavity 3, a fastening groove or a first fastening plate 13 is provided on a hole wall of the communicating hole 5, and two adjacent module bodies are fastened and connected with the first fastening plate 13 through the fastening groove. This arrangement enables two module bodies to be connected together by selecting the abutment surface 4 with the snap-fit groove on one module body to be aligned with the first planar surface 4 with the first snap-fit plate 13 on the other module body and then interconnecting the first snap-fit plate 13 and the snap-fit groove.

The buckle groove includes 4 cell bodies 14, and 4 cell bodies 14 are the cross distribution along the pore wall of intercommunicating pore 5, and 4 both ends of cell body 14 are equallyd divide do not and be linked together with binding face 4 and the chamber wall of placing chamber 3, and first buckle plate 13 sets up to two, and two first buckle plate 13 symmetries set up in the both sides of intercommunicating pore 5 pore wall, and when two adjacent module bodies link to each other, two first buckle plate 13 links to each other with two cell body 14 buckles that set up relatively respectively. With the arrangement, when the two module bodies are connected with the fastening groove through the first fastening plate 13, the fastening groove comprises 4 groove bodies 14 distributed in a cross shape. Therefore, when the first buckle plate is connected with the groove body 14, the two module bodies can rotate in 4 directions according to the connection of different groove bodies 14. Therefore, when building some building block structures, the building block structures cannot be limited by connection in a fixed direction, and building failure is avoided.

On the intercommunicating pore 5 pore wall that is provided with first buckle board 13, be provided with two cell bodies 14 at first buckle board 13's bilateral symmetry, such setting, when two binding face 4 butt joints that have first buckle board 13 on two module bodies, two first buckle boards 13 and two cell bodies 14 each other can mutual phase-match butt joint.

In a conventional arrangement, two first snap-in plates 13 and two groove bodies 14 may be arranged on the hole walls of the communication holes 5 at the tops of the upper casing 1 and the lower casing 2, or two first snap-in plates 13 and two groove bodies 14 may be arranged on the hole walls of the communication holes 5 at the top of one of the upper casing 1 and the lower casing 2, and four groove bodies 14 may be arranged on the hole walls of the communication holes 5 at the top of the other. As shown in fig. 8 and 9, the two module bodies with the first latch plate 13 can expose the first latch plate 13 on one of the module bodies or hide the first latch plates 13 on the two module bodies by two ways of forward installation and reverse installation.

One end of the first buckling plate 13 is connected with the hole wall of the communicating hole 5, the other end penetrates out of the communicating hole 5, the outer side of the first buckling plate is connected with a locking strip 15, and when the first buckling plate 13 is buckled with the groove body 14, the locking strip 15 is attached to the wall of the cavity for placing the cavity 3. By arranging the locking strip 15, the stability of connection between the first buckling plate 13 and the groove body 14 is improved. Is beneficial to building some large-scale building block structures without collapsing.

Example 4:

on the basis of embodiment 3, a building blocks module convenient to equipment still includes the decoration piece, and the inboard of decorating the piece is provided with the connecting piece, and the connecting piece card is located in the intercommunicating pore 5 to it links to each other with cell body 14 buckle. Through setting up the decorative sheet, promoted the interest of single module body, can increase the playing method of module body through set up some patterns on the decorative sheet, be favorable to developing child's intelligence.

The decorative sheet is a sealing decorative sheet 16, a plane decorative sheet 17 or a spherical decorative sheet 18, the sealing decorative sheet 16 is used for sealing the communication hole 5, the plane decorative sheets 17 are matched for sealing the surface of the module body to form a cube, and the spherical decorative sheets 18 are matched for sealing the surface of the module body to form a sphere. In normal use, the outer side of the seal decorative sheet 16 can be provided with some points, so that the module body can be turned into a dice through a plurality of seal decorative sheets 16. After the module body is changed into a cube through the plane decoration sheet 17, some patterns or letters for learning can be added on the outer sides of the six faces to match some patterns or letters, and the interest of learning is improved. A plurality of spherical decorative pieces 18 may be provided in different colors so that one colored marble can be obtained.

Connecting piece on spherical surface decorative sheet 18 includes connecting pipe 19 and two second snap-fit boards 20, and the one end of connecting pipe 19 links to each other with spherical surface decorative sheet 18's inboard, and on two second snap-fit boards 20 symmetry set up and connecting pipe 19's outer wall, when connecting pipe 19 card was located in the intercommunicating pore 5, two second snap-fit boards 20 linked to each other with the cell body 14 buckles of two relative settings respectively. Link to each other through setting up second buckle board 20 and the 14 buckles of cell body, promoted the stability that spherical surface decorative sheet 18 connects, through setting up connecting pipe 19, can see when second buckle board 20 and the 14 buckles of cell body link to each other, the pore wall of laminating intercommunicating pore 5 has further promoted the stability of structure.

The connection tube 19 of the spherical decorative plate 18 can also be used to mount small magnetic beads in the connection tube 19. This allows for the two module bodies with the spherical decorative pieces 18 to be joined together as shown in fig. 11. The magnetic attraction can be increased by small magnetic beads within the spherical decorative pieces 18.

The outer wall that encircles connecting pipe 19 is provided with a plurality of support bars 21, and the one end of a plurality of support bars 21 all links to each other with the inboard of spherical decorative sheet 18, and the other end all is provided with the holding surface that is in the coplanar, and when second buckle board 20 and cell body 14 buckle link to each other, binding face 4 and holding surface laminated each other. Through setting up the holding surface, can promote the stability of spherical surface decorative sheet 18 when linking to each other with the module body, like this a plurality of spherical surface decorative sheet 18 become the spheroid with module body parcel, when rolling, can not produce the shake. Resulting in non-uniform scrolling.

Example 5:

on the basis of any one of the foregoing embodiments, six attaching surfaces 4 are provided, and are respectively provided on the upper side, the lower side, the front side, the rear side, the left side and the right side of the module body. As shown in fig. 10, six module bodies can be connected through six abutting surfaces on the module bodies, so that multi-surface connection can be realized, and the playability of the building block is improved.

Example 6:

on the basis of the foregoing embodiment, as shown in fig. 7, an innovative module connection can be adopted: the magnetic beads 12 are loaded in the module body with the first snap-in plate 13, the module is assembled by utilizing the snap-in on the module body according to a certain shape, and then the connection is realized by utilizing the magnetism on the module. The outermost module body may be decorated by a decoration sheet. Is a brand-new intelligence-developing playing method. Not only reducing the production and manufacturing cost of enterprises, but also expanding the intelligence-benefiting playing method.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (10)

1. The utility model provides a building blocks module convenient to equipment, a serial communication port, includes the module body, this internal chamber (3) of placing that is provided with of module, it can dismantle and be provided with magnetic bead (12) to place the intracavity, the surface of module body is provided with binding face (4) more than three, be provided with connecting portion on binding face (4), two adjacent module bodies are inhaled one kind or two kinds of modes detachably in the continuous mode of linking to each other or connecting portion buckle each other through magnetic bead (12) each other magnetism.

2. A building block module for ease of assembly as claimed in claim 1, wherein: the module body is linked to each other by last casing (1) and casing (2) buckle and is constituteed down, it is provided with first locating column (6), first locating hole, first pin thread (7) and first box in the one side that links to each other with casing (2) down to go up casing (1), casing (2) is provided with second locating hole (8), second reference column (9), second box thread (10) and second pin thread (11) in the one side correspondence that links to each other with last casing (1) down, when going up casing (1) and casing (2) buckle and linking to each other and forming the module body, first locating column (6) card is located in second locating hole (8), and second reference column (9) card is located in the first locating hole, first pin thread (7) link to each other with second box thread (10) buckle, second pin thread (11) and first box buckle link to each other.

3. A building block module for ease of assembly according to any one of claims 1 or 2, wherein: connecting portion set up to link up binding face (4) and intercommunicating pore (5) of placing chamber (3) to be provided with buckle groove or first buckle board (13) on the pore wall of intercommunicating pore (5), two adjacent module bodies pass through the buckle groove and first buckle board (13) buckle links to each other.

4. A building block module for ease of assembly as claimed in claim 3 wherein: the buckle groove includes 4 cell bodies (14), and is 4 cell body (14) are the cross distribution along the pore wall of intercommunicating pore (5), and the both ends of 4 cell bodies (14) are equallyd divide do not and are linked together with binding face (4) and the chamber wall of placing chamber (3), first buckle board (13) set up to two, and two first buckle board (13) symmetries set up in the both sides of intercommunicating pore (5) pore wall, and when two adjacent module bodies link to each other, two first buckle boards (13) link to each other with two cell body (14) buckles that set up relatively respectively.

5. A building block module for ease of assembly as claimed in claim 4, wherein: one end of the first buckling plate (13) is connected with the hole wall of the communicating hole (5), the other end of the first buckling plate penetrates out of the communicating hole (5), the outer side of the first buckling plate is connected with a locking strip (15), and when the first buckling plate (13) is buckled with the groove body (14), the locking strip (15) is attached to the wall of the cavity for placing the cavity (3).

6. A building block module for ease of assembly as claimed in claim 4, wherein: still including decorating the piece, the inboard of decorating the piece is provided with the connecting piece, the connecting piece card is located in intercommunicating pore (5) to link to each other with cell body (14) buckle.

7. A building block module for ease of assembly as claimed in claim 6, wherein: decorate piece for sealing decorate piece (16), plane decoration piece (17) or sphere decoration piece (18), it is used for sealing intercommunicating pore (5) to seal decorate piece (16), and is a plurality of plane decoration piece (17) cooperate for the surface of closed module body, form the square, it is a plurality of sphere decoration piece (18) cooperate for the surface of closed module body, form the spheroid.

8. A building block module for ease of assembly as claimed in claim 7, wherein: connecting piece on spherical surface decorative sheet (18) includes connecting pipe (19) and two second buckle board (20), the one end of connecting pipe (19) links to each other with the inboard of spherical surface decorative sheet (18), two second buckle board (20) symmetry sets up with the outer wall of connecting pipe (19) on, when connecting pipe (19) card was located in intercommunicating pore (5), two second buckle board (20) linked to each other with two cell body (14) buckles that set up relatively respectively.

9. A building block module for ease of assembly as claimed in claim 8, wherein: encircle the outer wall of connecting pipe (19) is provided with a plurality of support bars (21), and is a plurality of the one end of support bar (21) all links to each other with the inboard of spherical surface decorative sheet (18), and the other end all is provided with the holding surface that is in the coplanar, when second buckle board (20) and cell body (14) buckle link to each other, binding face (4) and holding surface laminate each other.

10. A building block module for ease of assembly as claimed in claim 1, wherein: binding face (4) set up to six, set up respectively in the upside of module body, downside, front side, rear side, left side and right side.

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