CN202044757U - Hollow magic tube - Google Patents
Hollow magic tube Download PDFInfo
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- CN202044757U CN202044757U CN2011200274874U CN201120027487U CN202044757U CN 202044757 U CN202044757 U CN 202044757U CN 2011200274874 U CN2011200274874 U CN 2011200274874U CN 201120027487 U CN201120027487 U CN 201120027487U CN 202044757 U CN202044757 U CN 202044757U
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Abstract
The utility model discloses a hollow magic tube which is characterized in that any two adjacent layers of sliding blocks capable of rotating relatively comprise sliding blocks on continuous layers and sliding blocks on distance interruption layers, and are connected together through all the sliding blocks positioned on the peripheries of the continuous layers and all the sliding blocks positioned on the peripheries of the distance interruption layers via key slots in a clamping manner, and the structures of two sliding blocks which are symmetrical around a center point are the same.
Description
Technical field
The utility model relates to a kind of hollow magic square.
Background technology
The hollow magic square that exists a kind of central block of Japanese's utility model to remove in the market with in the 26 three traditional rank magic squares, it is positioned at slide block on each face and is connected by several semiorbicular supports and forms, and its structure is comparatively complicated.
The utility model content
The purpose of this utility model is to provide a kind of modern design, hollow frame magic square simple in structure, easy to assembly.Reduce production costs the interest that catches a buying public with this.
For achieving the above object, the utility model adopts following technical scheme: a kind of hollow magic square, can forming by the pantostrat slide block with every interdigit tomography slide block by counterrotating adjacent two layers slide block arbitrarily of it, this two-layer slide block is in the same place by the keyway engagement connection by each slide block that is positioned at the pantostrat periphery and each slide block that is positioned at every interdigit tomography periphery, and identical about two slide block structures of central point.
Described keyway engagement connection be meant each slide block that is positioned at the pantostrat periphery towards on each face of interdigit tomography, chute being set; Be positioned at every each slide block of interdigit tomography periphery the card key that the chute with the pantostrat slide block fastens is set on each face of pantostrat slide block, be positioned at every each slide block of interdigit tomography periphery towards on each face of interdigit tomography, chute being set.
Described keyway engagement connection be meant each slide block that is positioned at the pantostrat periphery towards on each face of interdigit tomography, the card key being set; Be positioned at every each slide block of interdigit tomography periphery the chute that the card key with the pantostrat slide block fastens is set on each face of pantostrat slide block, be positioned at every each slide block of interdigit tomography periphery towards on each face of interdigit tomography, the card key being set.
Described hollow magic square is that described hornblock and limit piece are slidingly fastened by keyway and link together by eight hornblocks, 12 the limit pieces regular hexahedron configuration of totally two ten central slider of its each face disappearance that slide block constituted.
Three adjacent joint faces that described hornblock is connected with the limit piece are provided with three arc chutes that intersect in twos, described limit piece offers two arc chutes on two faces of middle absence of heart piece, described limit piece is provided with the card key towards hornblock and the joint face that is connected with hornblock, and this card key sets in the chute on the hornblock and to form keyway with hornblock and be slidingly fastened and be connected.
Be provided with barrier rib in the piece chute of described limit, a transition block respectively is set in the chute of the intersection in twos of three set chutes on the described hornblock.
Described hollow magic square engages 12 regular hexahedron configurations that the limit piece is formed that are slidingly connected together by six central blocks that are positioned at each face center with the central block keyway, the bight disappearance hornblock of its each face.
Four adjacent joint faces that described central block is connected with the limit piece are provided with four arc chutes that intersect in twos, described limit piece offers two arc chutes on two faces of bight disappearance piece, described limit piece is provided with the card key towards central block and the joint face that is connected with central block, and this card key sets in the chute on the central block and to form keyway with central block and be slidingly fastened and be connected.
Be provided with barrier rib in the piece chute of described limit, a transition block respectively is set in the chute of the intersection in twos of four set chutes on the described central block.
Described hollow magic square connects five layers of regular hexahedron configuration that the limit piece is formed by piece among 8 hornblocks, 6 central blocks, 12 limit pieces, 24 Lian Bianlian, 24 even angles; Wherein hornblock is positioned at the bight of each face, the center that central block is positioned at each face, the centre that the limit piece is positioned at each bar rib, piece connects central block and limit piece and between the two among the Lian Bianlian, connects that the angle connects that the limit piece connects hornblock and limit piece and between the two; Its each face lacks 4 even number slide blocks that are positioned at even level; Wherein hornblock, limit piece and central block all belong to the pantostrat slide block on arbitrary axial rotary, and it is provided with chute towards each face every interdigit tomography slide block; Among the Lian Bianlian piece and connect the angle connect the limit piece towards each face every interdigit layer tomography slide block be provided with chute, towards each face of pantostrat be provided with the pantostrat slide block on the card key that matches towards chute set on the joint face of interdigit layer tomography slide block.
Chute set on the joint face of described hornblock and central block is provided with transition block in the intersection in twos, piece and connect the angle and connect in the chute set on the piece of limit and be provided with barrier rib among the described Lian Bianlian.
The utility model mainly by hollow magic square can counterrotating adjacent continuous layer slide block and between interdigit tomography slide block, the mode of keyway engagement connection is set, thereby solve the manufacture method of the hollow magic square of regular polygon of some row.
Description of drawings
Fig. 1 is the surface structure schematic diagram of the hollow magic square in three rank of the utility model embodiment 1;
Fig. 2 is the hornblock structural representation among Fig. 1;
Fig. 3 is the limit block structure schematic diagram among Fig. 1;
Fig. 4 is the structural representation of the transition block in Fig. 1 internal structure;
Fig. 5 is the structural representation of the barrier rib in Fig. 1 internal structure;
Fig. 6 is the structural representation after the assembling of the utility model embodiment 1 part;
Fig. 7 is the surface structure schematic diagram of the hollow magic square in three rank of the utility model embodiment 2;
Fig. 8 is the hornblock structural representation among Fig. 7;
Fig. 9 is the limit block structure schematic diagram among Fig. 7;
Figure 10 is the structural representation of the transition block in Fig. 7 internal structure;
Figure 11 is the structural representation of the barrier rib in Fig. 7 internal structure;
Figure 12 is the structural representation of establishing in the set chute on the hornblock in Fig. 7 into transition block;
Figure 13 is the structural representation after the assembling of the utility model embodiment 2 parts;
Figure 14 is the surface structure schematic diagram of the hollow magic square in three rank of the utility model embodiment 3;
Figure 15 is the central block structural representation among Figure 14;
Figure 16 is the structural representation of the limit piece among Figure 14;
Figure 17 is the structural representation after the assembling of the utility model embodiment 3 parts;
Figure 18 is the surface structure schematic diagram of the hollow magic square of the utility model embodiment 4;
Figure 19 is the central block structural representation among Figure 18;
Figure 20 is the structural representation of the limit piece among Figure 18;
Figure 21 is the structural representation of the transition block in Figure 18 internal structure;
Figure 22 is the structural representation of the barrier rib in Figure 18 internal structure;
Figure 23 is the structural representation after the assembling of the utility model embodiment 4 parts;
Figure 24 is the surface structure schematic diagram of the hollow magic square in five rank of the utility model embodiment 5;
Figure 25 is the hornblock structural representation among Figure 24;
Figure 26 is the structural representation that the company angle among Figure 24 connects the limit piece;
Figure 27 is the structural representation of the limit piece among Figure 24;
Figure 28 is the structural representation of a side of piece among the Lian Bianlian among Figure 24;
Figure 29 is the structural representation of another side of piece among the Lian Bianlian among Figure 24;
Figure 30 is the structural representation of the central block among Figure 24;
Figure 31 is the structural representation of the transition block in Figure 24 internal structure;
Figure 32 is the structural representation of the barrier rib in Figure 24 internal structure;
Figure 33 is that hornblock, the company angle among the utility model embodiment 5 connects the method schematic diagram that piece links together among limit piece, limit piece and the Lian Bianlian;
Figure 34 is the method schematic diagram that piece and central block among the Lian Bianlian among the utility model embodiment 5 are linked together.
The specific embodiment
Below in conjunction with accompanying drawing, hollow magic square of the present utility model is described in further detail with five concrete embodiment.Certainly, following several embodiment only are used for the utility model is described but not are used to limit scope of the present utility model.
To shown in Figure 6, is the utility model embodiment 1 as Fig. 1:
As shown in Figure 1, be the schematic diagram of the hollow magic square of regular hexahedron of the utility model embodiment 1.It by eight hornblocks 1 and 12 limit pieces 2 altogether 20 slide blocks form.As seen from the figure, this magic square is the hollow magic square of regular hexahedron of a central block of middle absence of heart of each face.
Fig. 2 is the structural representation of the hornblock 1 among Fig. 1, and its outward appearance is the cube structure that lacks an angle, and it is provided with three little chutes 4 of the big opening of belly that intersect in twos towards three of magic square inside adjacent joint faces.
Fig. 3 is the structural representation of the limit piece 2 among Fig. 1, two joint faces that it is connected with hornblock 1 are provided with the slide over each other card key 3 of engagement connection of set chute 4 on two joint faces with hornblock 1, and it is provided with two little chutes 5 of the big opening of belly towards two faces of the central block of disappearance.
The card key 3 of limit piece 2 is established in the chute between chute 4 intersections of intersecting in twos set on the joint face of hornblock 1, the two ends of blocking key 3 then at this, promptly block in the intersection of two other chute set on the chute at key 3 places and the hornblock 1, establish the transition block as shown in Figure 46 that offsets with this card key 3 into two, in the chute 5 of limit piece 2, establish afterwards into a barrier rib 7 as shown in Figure 5; At last, in this way all limit pieces 2 and hornblock 1 are assembled successively and link together, and the intersection in twos of set chute is established set card key 3 offsets in the chute with hornblock 1 transition block 6, is established in the chute of each limit piece 2 into barrier rib 7 on corresponding each hornblock 1, can produce the hollow magic square of regular hexahedron as shown in Figure 1.
As shown in Figure 6, be the internal structure sketch of the hollow magic square of regular hexahedron after the utility model embodiment 1 part is as shown in Figure 1 assembled.
In the hollow magic square of the regular hexahedron of the utility model embodiment 1, because in same full circle shape chute, be arranged on the hornblock 1 chute in twos the spherical transition block 6 of intersection can stop that the arc barrier rib 7 in the chute that is arranged on limit piece 2 enters in the chute set on the hornblock 1, be arranged on arc barrier rib 7 in the chute of limit piece 2 also can be blocked on the hornblock 1 chute in twos the set spherical transition block 6 in intersection enter in the chute set on the limit piece 25, thereby avoided the two to occur the jam retardance during in rotational slide at each slide block that is caused under the situation of mutual dislocation.And main is, because transition block 6 and the setting of barrier rib 7 in the chute of respective slide, has avoided belonging to and is crowded together falling apart of the hollow magic square of regular hexahedron that caused under the situation that stops that four limit pieces 2 every the interdigit tomography are lacking central block.
In the utility model embodiment 1, be positioned at four hornblocks 1 of hollow each face of magic square of regular hexahedron and the pantostrat of four limit piece 2 these magic squares of composition, four limit pieces that are positioned at this pantostrat opposite face of being connected with this pantostrat 2 form these magic squares every the interdigit tomography, be formed between the two every interdigit tomography slide block towards card key is set on the joint face of pantostrat slide block, at the pantostrat slide block towards the be slidingly fastened form of connection of the keyway that chute is set on the joint face of interdigit tomography slide block.
To shown in Figure 13, is the utility model embodiment 2 as Fig. 7:
As shown in Figure 7, be the schematic diagram of the hollow magic square of regular hexahedron of the utility model embodiment 2.It also by eight hornblocks 11 and 12 limit pieces 12 altogether 20 slide blocks form.As seen from the figure, this magic square is the hollow magic square of regular hexahedron of a central block of middle absence of heart of each face.
Shown in Figure 8 is the structural representation of the hornblock 11 among Figure 13, its outward appearance is the cube structure that lacks a bight, it is provided with three chutes 14 that intersect in twos towards three of magic square inside adjacent joint faces, and, every chute also has one section long stern notch 19 after intersecting with an other chute.
Shown in Figure 9 is the structural representation of the limit piece 12 among Fig. 7, its outward appearance is the cube structure that lacks a limit portion, two joint faces that it is connected with hornblock 11 are provided with the slide over each other card key 13 of engagement connection of set chute 14 on two joint faces with hornblock 11, and it is provided with two chutes 15 towards two faces of the central block of disappearance.
Shown in Figure 10 is the structural representation of the spherical transition block 16 in Fig. 7 internal structure.Shown in Figure 11 is the structural representation of the arc barrier rib 17 in Fig. 7 internal structure.
The hornblock of the utility model embodiment 2 and the utility model embodiment 1 and the method for attachment of limit piece and with transition block establish the method for chute intersection set on the hornblock, method that barrier rib is established in the piece chute of limit is just the same, this does not give unnecessary details.Uniquely different be, in the utility model embodiment 2, after hornblock 11 and limit piece 12 are linked together,, establish again into a transition block 16 in the stern notch 19 of every chute 14 that also need be on hornblock 11 except each chute intersection at hornblock 11 is provided with the transition block 16.
As shown in figure 12, be the structural representation that a transition block 16 is set in a chute intersection of hornblock 11, a transition block 16 is set respectively at the stern notch 19 of two chutes of another chute intersection of this hornblock 11 and this chute intersection.
As shown in figure 13, be internal structure sketch after the hollow magic square of regular hexahedron is as shown in Figure 7 partly assembled.
The structure function of set transition block and barrier rib is the same substantially in the utility model embodiment 2 and the utility model embodiment 1, and establish method on the hornblock 11 in the utility model embodiment 2 in the stern notch 19 of set chute 14 into a transition block 16, more can increase the stability of each slide block when rotating, can cause each slide block can be more complicated when being linked and packed certainly like this.
As Figure 14 extremely as shown in figure 17, be the utility model embodiment 3:
As shown in figure 14, be the schematic diagram of the hollow magic square of regular hexahedron of the disappearance hornblock of the utility model embodiment 3.It by six central blocks 21 and 12 limit pieces 22 altogether 18 slide blocks form.As seen from the figure, this magic square is the hollow magic square of regular hexahedron of the bight disappearance hornblock of each face.
Shown in Figure 15 is the structural representation of the central block 21 among Figure 14, and it is a cube structure, and its four adjacent joint faces are provided with four chutes 24 that intersect in twos.
Shown in Figure 16 is the structural representation of the limit piece 22 among Figure 14, two joint faces that its connects central block 21 are provided with the slide over each other card key 23 of engagement connection of set chute 24 on two joint faces with central block 21, and it is provided with two chutes 25 towards two faces of the hornblock that lacks.
The card key 23 of limit piece 22 is established in the chute between chute set on the joint face of central block 21 24 intersections, afterwards in this way with all limit pieces 22 and and central block 21 assemble successively and link together, can produce the hollow magic square of regular hexahedron as shown in figure 14.
As shown in figure 17, be after part central block 21 and part limit piece 22 are linked together, the internal structure sketch of the hollow magic square of regular hexahedron of the disappearance hornblock of the utility model embodiment 3 as shown in figure 14.
In the utility model embodiment 3, be positioned at four limit pieces 22 of hollow each face of magic square of regular hexahedron and central block 21 form these magic squares every the interdigit tomography, four central blocks 21 that are connected with these four limit pieces 22 on the interdigit tomography and four limit pieces 22 are formed the pantostrat of these magic squares, form between the two be positioned at every the slide block of interdigit tomography periphery towards card key is set on the joint face of pantostrat slide block, at the pantostrat slide block towards the be slidingly fastened form of connection of the keyway that chute is set on the joint face of interdigit tomography slide block.And, because the connection effect of central block 21, cause falling apart and blocking of whole magic square thereby be positioned at can be on the same surfaces of revolution not to be crowded together because be free to slide every the slide block 22 of interdigit tomography slide block periphery.Therefore, the hollow magic square of regular hexahedron as shown in figure 17 can guarantee the slip that rotates freely between each slide block under the simplest syndeton.
In addition, in the utility model embodiment 3, mainly introduced each slide block that is positioned at the pantostrat periphery towards on each face of interdigit tomography, chute being set; Be positioned at every each slide block of interdigit tomography periphery the card key that the chute with the pantostrat slide block fastens is set on each face of pantostrat slide block, be positioned at the architectural feature of introducing the hollow magic square of regular hexahedron on each face of interdigit tomography every the method towards chute is set of each slide block of interdigit tomography periphery.Certainly, also can make the hollow magic square of the utility model embodiment 3 described regular hexahedrons by antipodal keyway set-up mode, that is: each slide block that is positioned at the pantostrat periphery towards on each face of interdigit tomography, the card key being set; Every each slide block of interdigit tomography periphery the chute that the card key with the pantostrat slide block fastens is set on each face of pantostrat slide block being positioned at, be positioned at every each slide block of interdigit tomography periphery towards on each face of interdigit tomography, the card key being set, make the mode that is slidingly connected that forms the keyway engaging between the two.Because the technical conceive of these two kinds of methods all belongs to the category of keyway engagement connection, no longer gives special accompanying drawing introduction at this.
To shown in Figure 23, is the utility model embodiment 4 as Figure 18:
As shown in figure 18, be the schematic diagram of the hollow magic square of regular hexahedron of the disappearance hornblock of the utility model embodiment 4.It by six central blocks 21 and 12 limit pieces 22 altogether 18 slide blocks form.As seen from the figure, this magic square is the hollow magic square of regular hexahedron of the bight disappearance hornblock of each face.
Being the structural representation of the central block 21 among Figure 18 as shown in figure 19, is the structural representation of the limit piece 22 among Figure 18 as shown in figure 20.
In utility model embodiment 4, the structure of each central block 21 and each limit piece 22 is just the same among the structure of each central block 21 and each limit piece 22 and the utility model embodiment 3, and the method for attachment of each slide block among two embodiment is also just the same, and this does not give unnecessary details.
The difference of the utility model embodiment 4 and the utility model embodiment 3 is, after central block 21 and limit piece 22 linked together, chute 24 intersections that need on the joint face of central block 21, be offered, a spherical transition block 26 as shown in figure 21 is set respectively, an arc barrier rib 27 as shown in figure 22 is set in the chute on limit piece 22.
As shown in figure 23, be internal structure sketch after the hollow magic square of regular hexahedron of the disappearance hornblock of as shown in figure 18 the utility model embodiment 4 is partly assembled.
Figure 24 to Figure 34 is embodiment 5 of the present utility model:
Be the schematic diagram of the hollow magic square of five rank regular hexahedrons of the utility model embodiment 5 as shown in figure 24.It by 54,24 of pieces among eight hornblocks 51, six 53,24 Lian Bianlian of 55,12 limit pieces of central block even angle connect limit piece 52 altogether 74 outward appearances be the hollow magic square of five rank regular hexahedrons that square slide block is formed; As seen from the figure, this magic square lacks the even number slide block of the even level of each face.
Be the structural representation of the hornblock 51 among Figure 24 as shown in figure 25, its three faces that are connected with limit piece 52 are provided with three chutes 511 that intersect in twos.
Be the structural representation that company angle among Figure 24 connects limit piece 52 as shown in figure 26, the joint face that it is connected with hornblock 51 is provided with the slide over each other card key 524 of engagement connection of set chute 511 on the joint face with hornblock 51, and the face that it is connected with limit piece 53 is provided with card key 522.It is provided with two chutes 521 towards two faces of disappearance piece.
Be the structural representation of the limit piece 53 among Figure 24 as shown in figure 27, it with connect the angle and connect face that limit piece 52 is connected and be provided with the company angle and connect the chute 533 that card key 522 set on the limit piece 52 is slidingly fastened and is connected, it is provided with chute 531 with the face that piece 54 among the Lian Bianlian is connected.
As Figure 28 and shown in Figure 29 be the structural representation of the not ipsilateral of piece 54 among the Lian Bianlian among Figure 24, the face that it is connected with limit piece 53 be provided with limit piece 53 on the slide over each other card key 542 of engagement connection of chute 531, the face that it is connected with central block 55 is provided with card key 544, and it is provided with two chutes 541 towards two faces of disappearance piece.
Be the structural representation of the central block 55 among Figure 24 as shown in figure 30, the face that it is connected with piece 54 among four Lian Bianlian be provided with four with Lian Bianlian in the slide over each other chute 555 of engagement connection of set card key 544 on the piece 54.
Being the spherical transition block 56 in Figure 24 internal structure as shown in figure 31, is the arc barrier rib 57 in Figure 24 internal structure shown in figure 32.
As Figure 33 and shown in Figure 34 be the assembling schematic diagram of five kinds of slide blocks among the utility model embodiment 5.
Company angle among the utility model embodiment 5 is connected card key 524 set on the joint face of limit piece 52 establishes in the chute between chute set on the joint face of hornblock 51 511 intersections, the company angle is connected card key 522 set on the joint face of limit piece 52 establishes in the chute set on the joint face of limit piece 53 533, and establish respectively into a spherical transition block 56 as shown in figure 31 set chute 511 intersections on hornblock 51, an arc barrier rib 57 shown in figure 32 is set connecting in set two chutes 521 on the joint face of disappearance piece that the angle connects limit piece 52 respectively; Afterwards, set card key 542 is established in the chute set on the joint face of limit piece 53 531 on the joint face with piece among the Lian Bianlian 54, set card key 544 is established in the chute set on the joint face of central block 55 555 on the joint face with piece among the Lian Bianlian 54, at last, again in Lian Bianlian piece 54 on the joint face of disappearance piece, in set two chutes 541 an arc barrier rib 57 shown in figure 32 is set respectively, so just can be assembled into the hollow magic square of five rank regular hexahedrons of the utility model embodiment 5 as shown in figure 24.
The hollow magic square of the utility model is very novel ingenious on structural design, by hollow magic square can counterrotating adjacent continuous layer slide block and the mode of keyway engagement connection is set between interdigit tomography slide block, thereby solve the manufacture method of the hollow magic square of regular polygon of some row, and since such magic square novelty and mysteriousness in appearance, the interest that will catch a buying public.
Claims (11)
1. hollow magic square, it is characterized in that: described hollow magic square can be formed by the pantostrat slide block with every interdigit tomography slide block by counterrotating adjacent two layers slide block arbitrarily, this two-layer slide block is in the same place by the keyway engagement connection by each slide block that is positioned at the pantostrat periphery and each slide block that is positioned at every interdigit tomography periphery, and identical about two slide block structures of central point.
2. hollow magic square according to claim 1 is characterized in that: described keyway engagement connection be meant each slide block that is positioned at the pantostrat periphery towards on each face of interdigit tomography, chute being set; Be positioned at every each slide block of interdigit tomography periphery the card key that the chute with the pantostrat slide block fastens is set on each face of pantostrat slide block, be positioned at every each slide block of interdigit tomography periphery towards on each face of interdigit tomography, chute being set.
3. hollow magic square according to claim 1 is characterized in that: described keyway engagement connection be meant each slide block that is positioned at the pantostrat periphery towards on each face of interdigit tomography, the card key being set; Be positioned at every each slide block of interdigit tomography periphery the chute that the card key with the pantostrat slide block fastens is set on each face of pantostrat slide block, be positioned at every each slide block of interdigit tomography periphery towards on each face of interdigit tomography, the card key being set.
4. hollow magic square according to claim 2, it is characterized in that: described hollow magic square is that described hornblock and limit piece are slidingly fastened by keyway and link together by eight hornblocks, 12 the limit pieces regular hexahedron configuration of totally two ten central slider of its each face disappearance that slide block constituted.
5. hollow magic square according to claim 4, it is characterized in that: three adjacent joint faces that described hornblock is connected with the limit piece are provided with three arc chutes that intersect in twos, described limit piece offers two arc chutes on two faces of middle absence of heart piece, described limit piece is provided with the card key towards hornblock and the joint face that is connected with hornblock, and this card key sets in the chute on the hornblock and to form keyway with hornblock and be slidingly fastened and be connected.
6. hollow magic square according to claim 5 is characterized in that: be provided with barrier rib in the piece chute of described limit, a transition block respectively is set in the chute of the intersection in twos of three set chutes on the described hornblock.
7. hollow magic square according to claim 2, it is characterized in that: described hollow magic square is by six central blocks that are positioned at each face center, with engage 12 regular hexahedron configurations that the limit piece is formed that are slidingly connected together with the central block keyway, the bight of its each face disappearance hornblock.
8. hollow magic square according to claim 7, it is characterized in that: four adjacent joint faces that described central block is connected with the limit piece are provided with four arc chutes that intersect in twos, described limit piece offers two arc chutes on two faces of bight disappearance piece, described limit piece is provided with the card key towards central block and the joint face that is connected with central block, and this card key sets in the chute on the central block and to form keyway with central block and be slidingly fastened and be connected.
9. hollow magic square according to claim 8 is characterized in that: be provided with barrier rib in the piece chute of described limit, a transition block respectively is set in the chute of the intersection in twos of four set chutes on the described central block.
10. hollow magic square according to claim 2 is characterized in that: described hollow magic square connects five layers of regular hexahedron configuration that the limit piece is formed by piece among 8 hornblocks, 6 central blocks, 12 limit pieces, 24 Lian Bianlian, 24 even angles; Wherein hornblock is positioned at the bight of each face, the center that central block is positioned at each face, the centre that the limit piece is positioned at each bar rib, piece connects central block and limit piece and between the two among the Lian Bianlian, connects that the angle connects that the limit piece connects hornblock and limit piece and between the two; Its each face lacks 4 even number slide blocks that are positioned at even level; Wherein hornblock, limit piece and central block all belong to the pantostrat slide block on arbitrary axial rotary, and it is provided with chute towards each face every interdigit tomography slide block; Among the Lian Bianlian piece and connect the angle connect the limit piece towards each face every interdigit layer tomography slide block be provided with chute, towards each face of pantostrat be provided with the pantostrat slide block on the card key that matches towards chute set on the joint face of interdigit layer tomography slide block.
11. hollow magic square according to claim 10 is characterized in that: chute set on the joint face of described hornblock and central block is provided with transition block in the intersection in twos, piece and connect the angle and connect in the chute set on the piece of limit and be provided with barrier rib among the described Lian Bianlian.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011200274874U CN202044757U (en) | 2010-02-08 | 2011-01-14 | Hollow magic tube |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201029140024 | 2010-02-08 | ||
| CN201029140024.1 | 2010-02-08 | ||
| CN201020131101.X | 2010-03-15 | ||
| CN201020131101 | 2010-03-15 | ||
| CN2011200274874U CN202044757U (en) | 2010-02-08 | 2011-01-14 | Hollow magic tube |
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| CN202044757U true CN202044757U (en) | 2011-11-23 |
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| CN2011200274874U Expired - Fee Related CN202044757U (en) | 2010-02-08 | 2011-01-14 | Hollow magic tube |
| CN2011100284599A Pending CN102145226A (en) | 2010-02-08 | 2011-01-14 | Hollow magic cube |
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| Application Number | Title | Priority Date | Filing Date |
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| CN2011100284599A Pending CN102145226A (en) | 2010-02-08 | 2011-01-14 | Hollow magic cube |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102145226A (en) * | 2010-02-08 | 2011-08-10 | 郑广辉 | Hollow magic cube |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN2562816Y (en) * | 2002-07-01 | 2003-07-30 | 香港基内特有限公司 | Intelligent block modeling picture arrangement |
| US20080303211A1 (en) * | 2006-12-28 | 2008-12-11 | Ton La | Three-dimensional logical cube |
| CN201361435Y (en) * | 2009-02-01 | 2009-12-16 | 郑暖君 | Magic cube structure |
| CN202044757U (en) * | 2010-02-08 | 2011-11-23 | 郑广辉 | Hollow magic tube |
-
2011
- 2011-01-14 CN CN2011200274874U patent/CN202044757U/en not_active Expired - Fee Related
- 2011-01-14 CN CN2011100284599A patent/CN102145226A/en active Pending
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102145226A (en) * | 2010-02-08 | 2011-08-10 | 郑广辉 | Hollow magic cube |
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| CN102145226A (en) | 2011-08-10 |
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