CN211536490U - Split-assembly body assembled ball - Google Patents

Abstract

The utility model provides a spheroid is assembled to partial shipment body, includes and assembles the spheroid that constitutes by three or more than three partial shipment body, and the partial shipment body includes first arcwall face, second arcwall face and third arcwall face, and the second arcwall face includes three or more than three arcwall face, every arcwall face on the second arcwall face all set up some dovetail only with third arcwall face intercommunication, be connected through embedding dovetail and dovetail matched with dovetail between corresponding partial shipment body and the partial shipment body. The utility model discloses have following advantage: the assembling is easy, the cost is low, the looseness of the ball body can be avoided, and the compactness of the assembled ball body are ensured.

Description

Split-assembly body assembled ball

Technical Field

The utility model relates to a field is assembled to the model, concretely relates to spheroid is assembled to partial shipment body.

Background

The assembled sphere model is generally formed by assembling polygonal volume blocks with different numbers, most of the existing products adopt a bonding mode, and the bonding mode assembly has the following defects: 1. the bonding reliability is poor, and the blocks are easy to fall off and separate; 2. auxiliary mechanisms such as a limiting device and the like are needed to ensure the smooth bonding process; 3. the splicing personnel can not go deep into the splicing process, so the assembly pleasure can not be experienced in the splicing process; 4. the adhesive used is a chemical product which has potential health risks to users; 5. the adhesive is easily spilled on the hands or clothes of the splicing personnel when the splicing personnel participates in the splicing, thereby easily causing the splicing personnel to be damaged by the human body or property.

The utility model discloses a utility model in CN200520013087.2, its name is an intelligence three-dimensional picture arragement, it is a plurality of basic units that have spatial structure by cavity spheroid partition, the block structure between the basic unit is with their gomphosis makeup into the spheroid each other, choose for use 12 basic units a and 20 basic units b that the surface shape is six trapezoidal tower layer spatial structure of regular hexagon of five trapezoidal tower layer spatial structure of surface peripheral shape for regular pentagon, the tower side of basic unit a and basic unit b is equipped with tenon or tongue-and-groove, tenon and the corresponding tongue-and-groove phase-match between two adjacent basic units, every basic unit a's five sides all gomphosis basic unit b, every basic unit b's six sides crisscross gomphosis basic unit a and basic unit b in proper order.

Although the intelligent three-dimensional jigsaw solves the defects of splicing by a splicing mode, the following defects still exist:

1. the side faces of the towers of the basic unit a and the basic unit b are provided with tenons or mortises, the tenons and the corresponding mortises between the two adjacent basic units are matched, and the tenons and the mortises are arranged on the side faces of the towers of the basic units, so that the basic units and the basic units need to be connected in a one-to-one correspondence manner during assembly, and particularly, when a plurality of basic units are simultaneously matched, the difficult assembly phenomena of over-tight assembly, malposition assembly, mismatching assembly and the like easily occur;

2. the side faces of the basic units a and b are provided with tenons or mortises, the tenons and the corresponding mortises between the two adjacent basic units are matched, and the connection between the basic units can only be the tenons and the mortises corresponding to the tenons and the mortises on the side faces of the towers, so that the tenons or the mortises on the side faces of the towers of the basic units a and b need to be produced in a one-to-one correspondence manner in the production process, and the manufacturing cost of the die is high;

3. according to the specification and the attached drawings, the tenon or the mortise arranged on the side surface of the basic unit tower is opened from the top to the bottom of the tower, so that when the model is assembled, the sealing performance of the model is poor, the basic unit and the basic unit are easy to loosen, and the gap at the joint is large, so that the model is loose, and even the model is integrally scattered from the gap;

4. according to the specification and the attached drawings, the tenons or the mortises arranged on the side faces of the basic unit towers are square, the tenons are easy to separate from the mortises after the tenons and the mortises are matched, attention needs to be paid to avoid the tenons from separating from the mortises in the assembling process before the spheres are formed, if the tenons are separated from the mortises for multiple times in the assembling process, assembling personnel are easy to feel calm, or assembling is directly abandoned, and the compactness of the model are not high after the assembling is completed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a spheroid is assembled to partial shipment body, it is not only easy, the low cost of assembly, can avoid the spheroid loose, guarantee to assemble spheroidal compactedness and compactness moreover.

The utility model aims to realize the split charging body assembly sphere, which comprises a sphere formed by assembling a dovetail joint and three or more split charging bodies; the sub-packaging body is a geometric body which is surrounded by a first arc-shaped surface, a third arc-shaped surface and three or more second arc-shaped surfaces, a dovetail groove which is only communicated with the third arc-shaped surface is formed in each second arc-shaped surface, and the corresponding sub-packaging body is connected with the sub-packaging body through the dovetail groove and the dovetail joint matched with the dovetail groove.

The utility model discloses in, during the use, insert the partial shipment body that makes the correspondence in the dovetail that corresponds and the partial shipment body links to each other and forms stable connection structure, finally assemble by dovetail and three or three above partial shipment body and form a spheroid, wherein, two tip of dovetail are greater than the middle part, and two tip of dovetail all are greater than the middle part, guarantee to assemble and avoid the spheroid loose when the spheroid assembles easily, guarantee spheroidal compactedness and compactness.

Due to the adoption of the technical scheme, the utility model discloses following advantage has: the assembling is easy, the cost is low, the looseness of the ball body can be avoided, the compactness and the compactness of the assembled ball body can be guaranteed, and in addition, the assembling method has the advantages that the splicing process is completely free of a bonding mode, the assembled ball body is tight and firm, the thinking level of the assembled ball body can be improved in the deep assembling process, and the ball body is firmly assembled and is easy to break up by using the locking blocks.

Drawings

The drawings of the utility model are as follows:

fig. 1 is a perspective view of a sub-package body of the sub-package body assembly sphere of the present invention;

FIG. 2 is another schematic view of a sub-body of the present invention;

FIG. 3 is a perspective view of a dovetail joint of a split body assembly sphere of the present invention;

FIG. 4 is a schematic view of a dovetail groove and dovetail fit of a split body split sphere of the present invention;

FIG. 5 is another illustration of a split body and dovetail fit of a split body split sphere of the present invention;

FIG. 6 is a further illustration of a sub-body of the present invention, a sub-body of the ball body assembly;

fig. 7 is a schematic view of a locking groove and locking block cooperation of a split body split sphere of the present invention;

FIG. 8 is another illustration of the locking groove and locking block of the split spherical body of the present invention;

FIG. 9 is a schematic view of a split body split sphere of the present invention;

FIG. 10 is a further schematic view of a split body spherical body of the present invention;

FIG. 11 is a further schematic view of a sub-package assembled ball of the present invention;

FIG. 12 is a further schematic view of a split body spherical body of the present invention;

FIG. 13 is a further schematic view of a split body spherical body of the present invention;

fig. 14 is another schematic view of a sub-package assembled sphere of the present invention.

In the figure: 1. the split charging type locking device comprises a split charging body, 2 parts of dovetail grooves, 3 parts of dovetail joints, 4 parts of handheld parts I and 5 parts of locking grooves, 6 parts of locking blocks, 7 parts of handheld parts II and 8 parts of first arc-shaped surfaces, 9 parts of second arc-shaped surfaces and 10 parts of third arc-shaped surfaces.

Detailed Description

The invention will be further explained with reference to the following figures and examples:

as shown in fig. 1 to 14, a split body assembly sphere comprises a sphere formed by assembling a dovetail 3 and three or more split bodies 1; the split charging body 1 is a geometric body formed by a first arc-shaped surface 8, a third arc-shaped surface 10 and three or more second arc-shaped surfaces 9 in a surrounding mode, and each second arc-shaped surface 9 is provided with a dovetail groove 2 only communicated with the third arc-shaped surface 10; the corresponding split charging bodies 1 are connected with the split charging bodies 1 through dovetail grooves 2 and dovetail joints 3 matched with the dovetail grooves 2.

In the utility model, when in use, the dovetail 3 is inserted into the corresponding dovetail groove 2 to connect the corresponding split charging body 1 with the split charging body 1 to form a stable connection structure, and finally the dovetail 3 and three or more split charging bodies 1 are assembled to form a sphere, wherein, each split charging body 1 only needs to be provided with the dovetail 2, and the dovetail 3 matched with the split charging body 1 is not needed to be arranged on some split charging bodies 1, therefore, the processing is simple and the cost is low; two tip of dovetail 2 are greater than the middle part, and two tip of dovetail 3 are greater than the middle part, guarantee to assemble the spheroid assembly easy while avoid the spheroid loose, guarantee spheroidal compactness and compactness, every arcwall face all sets up some dovetail 2 only with third arcwall face 10 intercommunication on the second arcwall face 9 and means dovetail 2 not communicate with first arcwall face 8, further guarantee spheroidal compactness and compactness. The sphere formed by assembling three or more than three sub-bodies 1 refers to a sphere formed by 20 triangular sub-bodies (as shown in fig. 9), a sphere formed by 12 pentagonal sub-bodies, a sphere formed by 6 quadrangular sub-bodies (as shown in fig. 10), a sphere formed by 18 quadrangular sub-bodies and 8 triangular sub-bodies (as shown in fig. 11), a sphere formed by 12 pentagonal sub-bodies and 20 trilateral sub-bodies (as shown in fig. 12), and a sphere formed by 12 regular pentagonal sub-bodies and 20 regular hexagonal sub-bodies (as shown in fig. 13).

Further, as shown in fig. 5, a hand-held portion i 4 is formed at one end of the dovetail 3 beyond the dovetail groove 2. The handheld part I4 is used for facilitating the assembly personnel to hold the dovetail 3, so that the assembly personnel can insert the dovetail 3 into the dovetail groove 2 or pull the dovetail 3 out of the dovetail groove 2 conveniently.

Further, the handheld portion I4 is square or round. Compared with other shapes, the square or round handheld part I4 is more convenient for an assembler to clamp with fingers.

Further, as shown in fig. 6 to 9, two adjacent first arc-shaped surfaces 8 are provided with a communicated locking groove 5, and the adjacent first arc-shaped surfaces 8 are connected with a locking block 6 matched with the locking groove 5 through the locking groove 5. The locking block 6 is inserted into the locking groove 5 to lock the two corresponding sub-packaging bodies 1 and the sub-packaging bodies 1, and when the locking block 6 is pulled out from the locking groove 5, an assembler can break up the sphere from the locking groove 5 and assemble the sphere again, so that the locking groove 5 and the locking block 6 are matched to achieve the purpose of making the sphere firm and easy to break up.

Further, the cross section of the locking groove 5 is square or English letter-shaped. The purpose of the cross section of the locking groove 5 being square or English letter shape is to ensure the locking of the ball body while ensuring the beauty of the locking block 6. Wherein the English letter shape comprises capital letters A shape, B shape, C shape, D shape, E shape, F shape, G shape, H shape, I shape, J shape, K shape, L shape, M shape, N shape, O shape, P shape, Q shape, R shape, S shape, T shape, U shape, V shape, W shape, X shape, Y shape, Z shape, and lowercase letters a shape, B shape, C shape, D shape, E shape, F shape, G shape, H shape, K shape, L shape, M shape, N shape, O shape, P shape, Q shape, R shape, S shape, T shape, U shape, V shape, W shape, X shape, Y shape, Z shape.

Further, as shown in fig. 7 to 9, one end of the locking block 6 exceeds the locking groove 5 to form a holding part ii 7. The handheld part II 7 is used for facilitating the assembly personnel to hold the locking block 6, so that the assembly personnel can insert the locking block 6 into the locking groove 5 or pull out the locking block 6 from the locking groove 5.

Claims (7)

1. The utility model provides a spheroid is assembled to partial shipment body which characterized in that: comprises a ball body formed by assembling a dovetail joint (3) and three or more split charging bodies (1); the split charging body (1) is a geometric body which is surrounded by a first arc-shaped surface (8), a third arc-shaped surface (10) and three or more second arc-shaped surfaces (9), and each second arc-shaped surface (9) is provided with a dovetail groove (2) which is only communicated with the third arc-shaped surface (10); the corresponding split charging bodies (1) are connected with the split charging bodies (1) through dovetail grooves (2) and dovetail tenons (3) matched with the dovetail grooves (2).

2. The split body spherical assembly of claim 1, wherein: one end of the dovetail joint (3) exceeds the dovetail groove (2) to form a handheld part I (4).

3. The split body spherical assembly of claim 2, wherein: the handheld part I (4) is square or round.

4. The split body spherical body assembly according to claim 1, 2 or 3, wherein: the locking grooves (5) are formed in the two adjacent first arc-shaped surfaces (8) and communicated with each other, and the adjacent first arc-shaped surfaces (8) are connected with locking blocks (6) matched with the locking grooves (5) through the locking grooves (5).

5. The split body spherical assembly of claim 4, wherein: the cross section of the locking block (6) is square or English letter-shaped.

6. The split body spherical assembly of claim 4, wherein: one end (6) of the locking block exceeds the locking groove (5) to form a handheld part II (7).

7. The split body spherical assembly of claim 5, wherein: one end (6) of the locking block exceeds the locking groove (5) to form a handheld part II (7).

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