CN108136269A

CN108136269A - Turtledove shape building blocks

Info

Publication number: CN108136269A
Application number: CN201680028014.1A
Authority: CN
Inventors: 郭宇芹
Original assignee: LIN MEIZU
Current assignee: LIN MEIZU
Priority date: 2015-06-01
Filing date: 2016-05-24
Publication date: 2018-06-08
Anticipated expiration: 2036-05-24
Also published as: EP3305387A1; TW201741007A; CN108136269B; WO2016192393A1; CN204734963U; TWI702078B; EP3305387A4; EP3305387B1

Abstract

A kind of turtledove shape building blocks, dovetail groove (11) and dovetail block (12) are set gradually in building blocks (1) each side, when multiple building blocks (1) connect, the legendary bird with poisonous feathers tail block (12) of a building blocks (1) is made to be connect with the legendary bird with poisonous feathers stern notch (11) of another building blocks (1), forms stereochemical structure.

Description

Turtledove shape building blocks

Technical field

The present invention relates to a kind of turtledove shape building blocks, especially with dovetail groove and dovetail block by the technology in conjunction with different two panels turtledove shape building blocks.

Background technique

On the market with the toy of many trained hand eye coordination abilities, since all types of playing method and combination have no consistency, it is highly suitable for training the development of creativity.

In the middle with building blocks type be again it is most, the common blocks with different geometric figures is stacked, or setting recess portion and protrusion on each block of building blocks, to reach the purpose of interlocking.Wherein the most commercially available most common building blocks person is happy high (LEGO) building blocks, and characteristic is that using single square bulk area be minimum unit, is extended into the square or cuboid of large area.By the concave, convex portion on square with longitudinally assembled, but single direction to have structural strength when being assembled with bad, caused avalanche, situations such as loosening, for being assembled with its difficulty on large scale structure.Therefore happy high building blocks need to cooperate adjustment direction with 90,180,270 degree, be possible to assembling large size or the structure with crooked radian, and need more special part that could complete in the middle.And happy high building blocks assembling interlocking too closely, Yi Zunan the case where tearing open also occur often, cause to carry out assembling and dismantling with brute-force, cause the structural failure of building blocks, also puzzlement releases demounting tool for player's use to the inventor thus.

In addition, existing building blocks need to be carried out when assembling or dismantling with block-by-block, therefore have time-consuming, effort, and can not fast dismounting the problem of, it is known that the improvement space still to make progress.

Summary of the invention

The first object of the present invention is to be to provide a kind of turtledove shape building blocks, by conjunction with dovetail groove and dovetail block are by different two panels turtledove shape building blocks, achieving the purpose that infinitely linking extends combination outward by the turtledove shape building blocks.

The second object of the present invention is to be to provide a kind of turtledove shape building blocks, by the caulking groove for being equipped with a cylinder and the cylinder area corresponding to the bottom surface of building blocks at the top surface of the turtledove shape building blocks, achievees the purpose that the turtledove shape building blocks stacked combination can be extended vertically upwards.

The third object of the present invention is to be to provide a kind of turtledove shape building blocks, the turtledove shape inner edge that the dovetail groove can accommodate is substantially equal to by the thickness external form of the dovetail block of the turtledove shape building blocks, therefore one of them turtledove shape building blocks can be turned over and turn 90 degrees the vertical dovetail block and is combined with the dovetail groove of another turtledove shape building blocks level, achieved the purpose that two turtledove shape building blocks right-angled intersections fixation.

In order to achieve the above objectives, a kind of turtledove shape building blocks of the present invention, mainly it is connected by a plurality of building blocks and is constituted, wherein the building blocks are positive polygonal design, and dovetail groove, dovetail block are sequentially set in turn in each side of the building blocks, and the top of the building blocks, bottom two sides are provided with the corresponding cylinder and caulking groove that can be carried out combination.

When plural building blocks are attached, by the angle of each side, the dovetail block of the building blocks is made to be fastened in the dovetail groove of another building blocks, the solid for enabling the building blocks to form tool radian is special formed；It is connect again by cylinder with caulking groove, building blocks are enable to allow combinations of directions to be adjusted with longitudinal and rotation, enable turtledove shape building blocks of the invention with longitudinally, laterally, reversely, rotation suites of measure, make the three-dimensional contouring of assembling with more variability abundant, and overall structure can also possess comparable stability.Furthermore the anchor point that top incline joined together by parallel inclined surface and dovetail groove is constituted is arranged in the dovetail block upper/lower terminal of building blocks, enables building blocks in stacking or lateral connection, have the advantages that assembling and dismantling convenience and stable connection.

In an embodiment, which is equipped with a cylinder, and a caulking groove of the corresponding cylinder area is separately then equipped in the building blocks bottom surface.When plural building blocks vertically connect, which can be assembled in the caulking groove, keep the building blocks longitudinally connected, and plural building blocks is enable to connect and compose firm three-dimensional contouring.

In an embodiment, the thickness external form of the dovetail block of the turtledove shape building blocks is substantially equal to the turtledove shape inner edge that the dovetail groove can accommodate, therefore can reach and continuously fix two turtledove shape building blocks with right-angled intersection, generates more different combination variations.

Detailed description of the invention

Fig. 1 is the perspective view of turtledove shape building blocks of the present invention.

Fig. 2 is the stereoscopic schematic diagram in the generic connectivity of turtledove shape building blocks of the present invention.

Fig. 2A is the stereoscopic schematic diagram after the generic connectivity of turtledove shape building blocks of the present invention.

Fig. 3 is the stereoscopic schematic diagram in the rotation connection of turtledove shape building blocks of the present invention.

Fig. 3 A is the stereoscopic schematic diagram after the rotation connection of turtledove shape building blocks of the present invention.

Fig. 4 is the stereoscopic schematic diagram in the Opposite direction connection of turtledove shape building blocks of the present invention.

Fig. 4 A is the stereoscopic schematic diagram after the Opposite direction connection of turtledove shape building blocks of the present invention.

Fig. 5 is regular hexagon, octagon, regualr decagon, the dodecagon of turtledove shape building blocks of the present invention Schematic diagram.

Fig. 6 is the assembling schematic diagram of different height of the turtledove shape building blocks of the present invention in regualr decagon.

Fig. 7 is the building blocks perspective view of the first preferred embodiment of turtledove shape building blocks of the present invention.

Fig. 7 A is the partial enlarged view of the first preferred embodiment of turtledove shape building blocks of the present invention.

Fig. 7 B is the building blocks of the first preferred embodiment of turtledove shape building blocks of the present invention in the schematic diagram of inclined surface.

Fig. 7 C is the stereoscopic schematic diagram of the building blocks connection of the first preferred embodiment of turtledove shape building blocks of the present invention.

Fig. 7 D is the A-A cross-sectional view of the first preferred embodiment of turtledove shape building blocks of the present invention.

Fig. 8 is the stereoscopic schematic diagram of the building blocks connection of the second preferred embodiment of turtledove shape building blocks of the present invention.

Fig. 8 A is the B-B sectional view of the second preferred embodiment of turtledove shape building blocks of the present invention.

Fig. 8 B is the B-B partial enlargement diagram of the second preferred embodiment of turtledove shape building blocks of the present invention.

Fig. 9 is the building blocks stereoscopic schematic diagram of the third preferred embodiment of turtledove shape building blocks of the present invention.

Fig. 9 A is the longitudinally connected stereoscopic schematic diagram of the building blocks of the third preferred embodiment of turtledove shape building blocks of the present invention.

Fig. 9 B is the stereoscopic schematic diagram of the building blocks side connection of the third preferred embodiment of turtledove shape building blocks of the present invention.

Fig. 9 C is the stereoscopic schematic diagram that the building blocks right-angled intersection of the third preferred embodiment of turtledove shape building blocks of the present invention is fixedly connected.

Figure 10 is the building blocks stereoscopic schematic diagram of the 4th preferred embodiment of turtledove shape building blocks of the present invention.

Figure 10 A is the longitudinally connected stereoscopic schematic diagram of the building blocks of the 4th preferred embodiment of turtledove shape building blocks of the present invention.

Figure 10 B is the stereoscopic schematic diagram of the building blocks side connection of the 4th preferred embodiment of turtledove shape building blocks of the present invention.

Figure 10 C is the stereoscopic schematic diagram that the building blocks right-angled intersection of the 4th preferred embodiment of turtledove shape building blocks of the present invention is fixedly connected.

Figure 11 is the building blocks stereoscopic schematic diagram of the 5th preferred embodiment of turtledove shape building blocks of the present invention.

Figure 11 A is the longitudinally connected stereoscopic schematic diagram of the building blocks of the 5th preferred embodiment of turtledove shape building blocks of the present invention.

Figure 11 B is the stereoscopic schematic diagram of the building blocks side connection of the 5th preferred embodiment of turtledove shape building blocks of the present invention.

Figure 11 C is what the building blocks right-angled intersection of the 5th preferred embodiment of turtledove shape building blocks of the present invention was fixedly connected Stereoscopic schematic diagram.

Figure 12 is the building blocks stereoscopic schematic diagram of the 6th preferred embodiment of turtledove shape building blocks of the present invention.

Description of symbols: 1,1a, 1a ', 1b, 1b ', 1c, 1c ', 1d~building blocks；11,11a, 11a ', 11b, 11b '~dovetail groove；12,12a, 12b~dovetail block；121~top incline；122~bottom incline；13,13a, 13b~side；14,14a~cylinder；15,15a~caulking groove；16~anchor point；17~perforation；A1~angle；B~radian；11c, 11c '~arcuation slot；12c~spherical buckle；13c~side；14c~spherical buckle；15c~arc-shaped caulking groove；18d~perforation.

Specific embodiment

As shown in Fig. 1-Fig. 4 A, Fig. 1 is the perspective view of turtledove shape building blocks of the present invention.Fig. 2 is the stereoscopic schematic diagram in the generic connectivity of turtledove shape building blocks of the present invention.Fig. 2A is the stereoscopic schematic diagram after the generic connectivity of turtledove shape building blocks of the present invention.Fig. 3 is the stereoscopic schematic diagram in the rotation connection of turtledove shape building blocks of the present invention.Fig. 3 A is the stereoscopic schematic diagram after the rotation connection of turtledove shape building blocks of the present invention.Fig. 4 is the stereoscopic schematic diagram in the Opposite direction connection of turtledove shape building blocks of the present invention.Fig. 4 A is the stereoscopic schematic diagram after the Opposite direction connection of turtledove shape building blocks of the present invention.The building blocks 1 of positive even numbers side shape design are adopted by turtledove shape building blocks system of the present invention, such as, but not limited to: regular hexagon, octagon or other regular polygon building blocks 1 at least six sides or more side.Because regular hexagon structure is in being combined with each other and can not interspace, so the shape of the most preferred embodiment for turtledove shape building blocks of the invention.And dovetail groove 11, dovetail block 12 is sequentially arranged in each side 13 of the building blocks 1 in turn, makes each side 13 that concave-convex design be presented.It is set as making the dovetail groove 11 of each side 13 equal with the quantity of dovetail block 12 in turn herein, it can thus be appreciated that polygonal design of the invention can be maximum then be able to cooperate actual production demand and be adjusted using being most less than quadrangle.And when plural building blocks 1 are attached, the dovetail block 12 of the building blocks 1 is fastened in the dovetail groove 11 of another building blocks 1, enables 1 lateral connection of building blocks.That is, in the regular hexagon preferred embodiment of turtledove shape building blocks of the present invention, by the dovetail groove 11 being respectively equipped on each side 13 assembling can be mutually clamped with the dovetail block 12 of another different building blocks 1 and the dovetail groove 11 from the dovetail block 12, so that its hexagon is infinitely laterally extended combination connection, can easily develop towards six different angle directions and assemble a plane.And hexagon each side 13 adjust the angle A1 be 60 degree (namely, if being axle center come when rotating the building blocks 1 according to the center line that building blocks 1 are run through in vertically direction, then every 60 degree of angles of rotation will be from a rotation of side 13 to adjacent another side 13, and it is 360 degree of angles of whole circle that all 6 sides 13, which have all been rotated just), allow the building blocks 1 that can easily utilize rotation connection original structure, the three-dimensional contouring of the cambered B of assemble.And in 1 top surface of building blocks be equipped with a cylinder 14, separately in 1 bottom surface of building blocks is then equipped with a caulking groove 15 of corresponding 14 area of cylinder.When plural 1 vertically connection of building blocks, which can be assembled in the caulking groove 15, keep the building blocks 1 longitudinally connected, and plural building blocks 1 is enable to connect and compose firm three-dimensional contouring.

As shown in Fig. 3-Fig. 3 A, it is seen that stack the 2 rank three-dimensional contourings constituted by 6 connections of building blocks 1 in Fig. 3 and 3A, the building blocks 1 of dotted line are connect by cylinder 14 with caulking groove 15 to reach in figure.Both the cylinder 14 and the caulking groove 15 are hexagonal design, in other words, the cylinder 14 and the caulking groove 15 are both with the circumference of hexagon, therefore can by rotate the building blocks 1 (namely, center line using vertically direction through building blocks 1 rotates the building blocks 1 as axle center), it allows the building blocks 1 of subsequent upper and lower vertical stack connection to be changed direction (that is, the position for changing dovetail block or dovetail groove) to be assembled.Because the angle of regular hexagon is 180 degree=720 degree (N-2) *, each angle is 120 degree (that is, the angle between adjacent two sides 13 is 120 degree of angles), closes operation with triangle interior angle, can must rotate and be adjusted to 60 degree of progress.And the present embodiment is not limited to hexagon, it also can be with being changed needed for actual production, if by taking the angle of octagon as an example, then 180 degree=1080 degree (N-2) *, then each angle is 135 degree, closes operation with triangle interior angle, therefore rotation is adjusted to 45 degree of progress.Again by taking the angle of dodecagon as an example, then 180 degree=1800 degree (N-2) *, then each angle is 150 degree, closes operation with triangle interior angle, therefore rotation is adjusted to 30 degree carries out.By above-mentioned example explanation, this shape, which should can be illustrated, can allow each building blocks 1 when lateral connection, make it have variability abundant by the angle of rotation adjustment.

As shown in Fig. 4-Fig. 4 A, the 2 rank three-dimensional contourings constituted are stacked by 3 connections of building blocks 1.Because the dovetail groove 11 and the dovetail block 12 can be fixed mutually, therefore dotted line building blocks 1 are able to Opposite direction connection in figure；In other words, so-called " Opposite direction connection " is exactly to be connected with each other the caulking groove 15 on 1 bottom surface of dotted line building blocks in opposite direction with other 3 building blocks 1 upward.As shown in figure 5, for the regular hexagons of turtledove shape building blocks of the present invention, octagon, regualr decagon, dodecagon schematic diagram.Wherein, regular hexagon, octagon, regualr decagon and the dodecagon of turtledove shape building blocks of the present invention can more be carried out with aforementioned assembling stack manner.It as shown in Figure 6, is the assembling schematic diagram of different height of the turtledove shape building blocks of the present invention in regualr decagon.Wherein, the height of each building blocks 1 of turtledove shape building blocks of the present invention and cylinder 14 and corresponding caulking groove 15 and perforation 17, can be increased and decreased according to actual production demand, allow 1 group of the building blocks to load onto and more change.By above description, should be able to understand the present invention can be used interchangeably using the connection of common vertical, horizontal, rotation connection, Opposite direction connection, and turtledove shape building blocks 1 of the present invention can be allowed to be able to generate variability abundant, three-dimensional for construction special formed more dexterous changeable.

As shown in Fig. 7-Fig. 7 D, Fig. 7 is that the building blocks of the first preferred embodiment of turtledove shape building blocks of the present invention are three-dimensional Figure.Fig. 7 A is the partial enlarged view of the first preferred embodiment of turtledove shape building blocks of the present invention.Fig. 7 B is the building blocks of the first preferred embodiment of turtledove shape building blocks of the present invention in the schematic diagram of inclined surface.Fig. 7 C is the stereoscopic schematic diagram of the building blocks connection of the first preferred embodiment of turtledove shape building blocks of the present invention.Fig. 7 D is the A-A cross-sectional view of the first preferred embodiment of turtledove shape building blocks of the present invention.Wherein, 1 center of building blocks is equipped with a perforation 17 in the first preferred embodiment of turtledove shape building blocks of the present invention, which is able to cooperation strip or columnar connector, allows between building blocks and combines more abundant variability.And in the upper end and lower end of 12 part of dovetail block, it is respectively equipped with a top incline 121 and a bottom incline 122, and two inclined surface 121,122 systems are set in parallel, is to be illustrated to be used with 90 degree of structure with 60 degree in figure, is not limited to this.And when plural building blocks 1 are with longitudinal stacked, the top incline 121 positioned at the building blocks 1 of lower layer can be bonded with the bottom incline 122 for another building blocks 1 for being located at upper layer, allow building blocks 1 in connection status.That is, when the top incline 121 of the building blocks 1 is in 60 degree of inclinations, the bottom incline 122 is then same to be tilted in 60 degree and is in parastate with the top incline 121, and two building blocks 1 for enabling the upper and lower layer of other vertical stacks to be carried out longitudinally adjacent are able to the mode being bonded to each other using the top incline 121 and the bottom incline 122, achieve the effect that make a plurality of 1 vertical stacks of building blocks.

As shown in Fig. 8-Fig. 8 B, Fig. 8 is the stereoscopic schematic diagram of the building blocks connection of the second preferred embodiment of turtledove shape building blocks of the present invention.Fig. 8 A is the B-B sectional view of the second preferred embodiment of turtledove shape building blocks of the present invention.Fig. 8 B is the B-B partial enlargement diagram of the second preferred embodiment of turtledove shape building blocks of the present invention.Wherein, visible plural number building blocks 1 are when vertical stack in the second preferred embodiment of turtledove shape building blocks of the present invention, other than two inclined surface 121,122 above-mentioned can be bonded in connection status, if the building blocks 1 continue vertical stack, the building blocks 1 for being located at upper layer can cooperate the top incline 121 positioned at another building blocks 1 of lower layer to form an anchor point 16 in the lower section of dovetail groove 11, and building blocks 1 is enable to prevent horizontal force from falling off.If anchor point 16 continues that 1 quantity of building blocks is cooperated to increase, cooperate original upper and lower inclined surface 121,122 that can connect and compose firm solid special formed.

As shown in Fig. 9-Fig. 9 C, Fig. 9 is the building blocks stereoscopic schematic diagram of the third preferred embodiment of turtledove shape building blocks of the present invention.Fig. 9 A is the longitudinally connected stereoscopic schematic diagram of the building blocks of the third preferred embodiment of turtledove shape building blocks of the present invention.Fig. 9 B is the stereoscopic schematic diagram of the building blocks side connection of the third preferred embodiment of turtledove shape building blocks of the present invention.Fig. 9 C is the stereoscopic schematic diagram that the building blocks right-angled intersection of the third preferred embodiment of turtledove shape building blocks of the present invention is fixedly connected.Wherein, the turtledove shape building blocks 1a of third preferred embodiment of the present invention be regular hexagon building blocks, that is, have a top surface, a bottom surface corresponding with the top surface and be connected between top surface and bottom surface and substantially with the orthogonal six side 13a in the top surface.The ontology of building blocks 1a has a preset height H1 (that is, the distance between top surface and bottom surface of building blocks 1a), a dovetail groove 11a, a dovetail block 12a is sequentially arranged in each side 13a of building blocks 1a in turn, makes each side 13a that concave-convex state be presented.It in other words, then must be one dovetail groove 11a of setting on the arranged on left and right sides face 13a adjacent with side 13a when being to be provided with a dovetail block 12a on certain one side 13a；Anti- is also right, then must be one dovetail block 12a of setting on the arranged on left and right sides face 13a adjacent with side 13a when being to be provided with a dovetail groove 11a on certain one side 13a.

In third preferred embodiment of the present invention, when two building blocks 1a, 1a ' the mutually transverse connection, as as shown in Figure 9 A, the dovetail block 12a system longitudinal (vertical direction) of one of them building blocks 1a is embedded in and is incorporated into the interior of the dovetail groove 11a ' of another building blocks 1a '.Also, it is equipped with a cylinder 14a at the center on the top surface of building blocks 1a (top), a caulking groove 15a of corresponding cylinder 14a area is separately then equipped at the center of the bottom surface building blocks 1a (bottom end).When a plurality of building blocks 1a vertical vertical stack connection, as shown in Figure 9 B as, the cylinder 14a of underlying building blocks 1a can longitudinally be embedded in and be assembled in the caulking groove 15a of directly on top building blocks 1a, and longitudinally perpendicular stackings of two building blocks 1a is enable to connect.

In addition, the maximum gauge d1 for the dovetail block 12a being located on each side 13a can (d1=H1) identical as the height H1 of body part of building blocks 1a, and external form is substantially equal to the turtledove shape inner edge that dovetail groove 11a can be accommodated；Namely, the maximum gauge d1 of dovetail block 12a end face outside is not only approximately equal to the maximum width (in other words, the end face outside of dovetail block 12a is square) of dovetail block 12a end face outside while being also approximately equal to the maximum width of the inner edge dovetail groove 11a (namely adjacent to the side of building blocks 1a ontology).Therefore, can as shown in Figure 9 C as, building blocks 1a turned over to turn 90 degrees combined with vertical dovetail block 12a with the dovetail groove 11a ' of adjacent another building blocks 1a ' level, and then two building blocks 1a, 1a ' are fixed with 90 degree of relative angle right-angled intersections；That is, two building blocks 1a, 1a in conjunction with after ' two top surfaces between can namely be mutually perpendicular in 90 degree of angles, but the dovetail block 12a of building blocks 1a still can be firmly embedded in the dovetail groove 11a ' of another building blocks 1a '.That is, in third preferred embodiment of the present invention, the kenel of the substantially square cone of dovetail block 12a expands extension in dovetail shape from the side 13a central position of building blocks 1a outward, not only can laterally it be attached by dovetail groove 11a, it can provide that right-angled intersection is fixedly connected in a manner of 90 degree by two building blocks 1a, 1a ', more to generate more different combinations variations.

As shown in Figure 10-Figure 10 C, Figure 10 is the building blocks stereoscopic schematic diagram of the 4th preferred embodiment of turtledove shape building blocks of the present invention.Figure 10 A is the longitudinally connected stereoscopic schematic diagram of the building blocks of the 4th preferred embodiment of turtledove shape building blocks of the present invention.Figure 10 B is the stereoscopic schematic diagram of the building blocks side connection of the 4th preferred embodiment of turtledove shape building blocks of the present invention.Figure 10 C is what the building blocks right-angled intersection of the 4th preferred embodiment of turtledove shape building blocks of the present invention was fixedly connected Stereoscopic schematic diagram.Wherein, as the 4th preferred embodiment of turtledove shape building blocks of the present invention of Figure 10-Figure 10 C, it is generally similar with third preferred embodiment shown in Fig. 9-Fig. 9 C, therefore will not be described in great detail below identical element and structure.

Difference of the turtledove shape building blocks of 4th preferred embodiment of the invention from aforementioned third preferred embodiment is, the height H2 of the body part of the turtledove shape building blocks 1b of 4th preferred embodiment of the invention is greater than the thickness d 2 (H2 > d2) of dovetail block 12b, also, dovetail block 12b is substantially located at central position of each side 13b in the height direction with the two in width direction.In other words, the height H2 of the turtledove shape building blocks 1b of the 4th preferred embodiment of the invention is greater than the height H1 (H2 > H1) of the turtledove shape building blocks 1a of third preferred embodiment of the present invention.When two building blocks 1b, 1b ' the mutually transverse connection of the 4th preferred embodiment, as shown in Figure 10 A, the dovetail block 12b system of one of them building blocks 1b longitudinal (vertical direction) is embedded in and is incorporated into the interior of the dovetail groove 11b ' of another building blocks 1b ', and since the height H2 of building blocks 1b is greater than the thickness d 2 of dovetail block 12b, therefore, dovetail block 12b system can be sticked in the center of dovetail groove 11b, and still there are a spaces at the top surface in dovetail groove 11b and bottom surface at this time.

When a plurality of building blocks 1b are vertically longitudinally connected, as shown in Figure 10 B, cylinder 14b can be assembled in caulking groove 15b, enable the longitudinally perpendicular stacking connection of a plurality of building blocks 1b；Certain, as illustrated in figure 10 c, building blocks 1b can also be turned over to turn 90 degrees and be combined with each other with vertical dovetail block 12b and the dovetail groove 11b ' of another building blocks 1b ' level, by two building blocks 1b, 1b ', right-angled intersection is fixedly connected with (top surface of two building blocks 1b, 1b ' is orthogonal) in a manner of 90 degree, to generate more different combination variations.

As shown in Figure 11-Figure 11 C, Figure 11 is the building blocks stereoscopic schematic diagram of the 5th preferred embodiment of turtledove shape building blocks of the present invention.Figure 11 A is the longitudinally connected stereoscopic schematic diagram of the building blocks of the 5th preferred embodiment of turtledove shape building blocks of the present invention.Figure 11 B is the stereoscopic schematic diagram of the building blocks side connection of the 5th preferred embodiment of turtledove shape building blocks of the present invention.Figure 11 C is the stereoscopic schematic diagram that the building blocks right-angled intersection of the 5th preferred embodiment of turtledove shape building blocks of the present invention is fixedly connected.

Wherein, as the 5th preferred embodiment of turtledove shape building blocks of the present invention of Figure 11-Figure 11 C, it is generally similar with third preferred embodiment shown in 9-9 figure C, therefore will not be described in great detail below identical element and structure.Wherein, difference of the turtledove shape building blocks of 5th preferred embodiment of the invention from aforementioned third preferred embodiment is, the turtledove shape building blocks of 5th preferred embodiment of the invention are positive the building blocks 1c of hexagonal design, there is a top surface, a bottom surface corresponding with the top surface and be connected between top surface and bottom surface and substantially with the orthogonal six side 13c in the top surface.The spherical buckle 12c of an arcuation slot 11c and one is sequentially arranged in each side 13c in turn, and each side 13c is made to be presented continuous concave-convex state, and volume size of the spherical buckle 12c System can just be sticked in the interior of arcuation slot 11c.It in other words, then must be one arcuation slot 11c of setting on the arranged on left and right sides face 13c adjacent with side 13c when being to be provided with the spherical buckle 12c on certain one side 13c, anti-is also right.

In addition, being equipped with a spherical buckle 14c in the top surface of building blocks 1c, an arc-shaped caulking groove 15c of the corresponding spherical buckle 14c is separately then equipped in the bottom surface building blocks 1c.When two building blocks 1c, 1c ' the mutually transverse connection, as shown in Figure 11 A as, spherical buckle 12c system longitudinal (vertical direction) insertion of one of them building blocks 1c and the arcuation slot 11c's ' for being incorporated into another building blocks 1c ' is interior.When plural building blocks 1c is vertically longitudinally connected, as shown in Figure 11 B as, the spherical buckle 14c of underlying building blocks 1c can be sticked in the arc-shaped caulking groove 15c for another building blocks 1c being located above, and the longitudinally perpendicular stacking of those building blocks 1c is enable to connect.Similarly, as as shown in Figure 11 C, building blocks 1c can also be turned over to turn 90 degrees and be combined with the vertical spherical buckle 12c with the arcuation slot 11c ' of another building blocks 1c ' level, right-angled intersection is fixedly connected in a manner of 90 degree by two building blocks 1c, 1c ', to generate more different combination variations.

It as shown in figure 12, is the building blocks stereoscopic schematic diagram of the 6th preferred embodiment of turtledove shape building blocks of the present invention.Wherein, as the 6th preferred embodiment of turtledove shape building blocks of the present invention of Figure 12, it is generally similar with third preferred embodiment shown in 9-9 figure C, therefore will not be described in great detail below identical element and structure.Wherein, the turtledove shape building blocks of the 6th preferred embodiment of the invention and aforementioned third preferred embodiment the difference lies in that turtledove shape building blocks 1d of the present invention, which further includes a perforation 18d, is set to building blocks 1d centre, and through between the top surface and bottom surface of building blocks 1d；Wherein, perforation 18d, which can be, has one of circle, triangle, quadrangle, pentagon, hexagon or other polygonal periphery profiles etc..In the 6th preferred embodiment of the invention, the perforation 18d of building blocks 1d is with hexagonal outline be it is best, this is allowing together with the stacked group of three building blocks (two building blocks 1a sandwich, one building blocks 1d) longitudinal direction because the cylinder 14a for the building blocks 1a that the perforation 18d with hexagonal outline can allow another two as shown in Figure 9 is embedded in the perforation 18d of building blocks 1d from top with lower section respectively；Alternatively, the connector of strip or column polygon can also separately be cooperated to be arranged in the perforation 18d of several building blocks 1d of vertical stacking, the connection relationship between those building blocks 1a, 1d is allowed more to enrich variability.

In summary, a kind of turtledove shape building blocks of the present invention, main system is with each side 13 of building blocks 1, sequentially it is arranged in turn with dovetail groove 11 and dovetail block 12, when being connected with each other plural building blocks 1, pass through the different angle in each side 13, it is sticked in the dovetail block 12 of building blocks 1 in the dovetail groove 11 of another building blocks 1, the solid for forming tool radian is special formed, be used alternatingly by common longitudinally connected, lateral connection, rotation connection, Opposite direction connection and right-angled intersection connection etc., can allow turtledove shape building blocks of the present invention be able to generate enrich it is a variety of disposable vertical Body is special formed.

It is described above to be merely exemplary for the purpose of the present invention; and not restrictive, those of ordinary skill in the art understand, without departing from the spirit and scope defined by the claims; can many modifications may be made, variation or equivalent, but will fall within the scope of protection of the present invention.

Claims

A kind of turtledove shape building blocks, which is characterized in that include:

One building blocks, the even number of sides that is positive shape, have a top surface, a bottom surface corresponding with the top surface and be connected between top surface and bottom surface and substantially with the top surface it is orthogonal plural number side；The quantity of the side possessed by the building blocks is even number and is at least six；In respectively side of the building blocks, one dovetail groove and a dovetail block are sequentially set in turn, namely, when being to be provided with the dovetail block on a certain side, it must be then one dovetail groove of setting on the another two adjacent with the side side, and when being to be provided with the dovetail groove on a certain side, then it must be one dovetail block of setting on the another two adjacent with the side side；

Wherein, when being connected with each other the plural building blocks, the dovetail block of the building blocks is made to be fastened in the dovetail groove of adjacent another building blocks, can allows the mutually transverse connection of two building blocks.
Turtledove shape building blocks according to claim 1, which is characterized in that the building blocks are the side there are six regular hexagon and tools.
Turtledove shape building blocks according to claim 2, which is characterized in that the dovetail block also includes a: top incline, a bottom incline and an anchor point；The top incline is set to the upper end of the dovetail block, which is set to the lower end of the dovetail block, and the top incline is set in parallel with the bottom incline；When the plural building blocks are longitudinally connected, the top incline positioned at the building blocks of lower layer can be bonded with the bottom incline for the building blocks for being located at upper layer, and cooperate the top incline for the building blocks for being located at lower layer that can constitute the anchor point of at least more than one in the dovetail groove for the building blocks for being located at upper layer.
Turtledove shape building blocks according to claim 2, which is characterized in that the building blocks also include a: cylinder and a caulking groove；The cylinder is set to the top surface of the building blocks；The caulking groove is set to the bottom surface of the building blocks；The corresponding caulking groove area of the cylinder area keeps upper and lower two adjacent building blocks longitudinally connected by that will be embedded in the caulking groove of the building blocks positioned at upper layer positioned at the cylinder of the building blocks of lower layer.
Turtledove shape building blocks according to claim 4, which is characterized in that the circumference of both the cylinder and the caulking groove is regular hexagon.
Turtledove shape building blocks according to claim 1, which is characterized in that the height of the plural building blocks is respectively different.
Turtledove shape building blocks according to claim 1, which is characterized in that the thickness of the dovetail block on each side is identical as the height of the building blocks, and external form is substantially equal to the turtledove shape that the dovetail groove can accommodate Inner edge, therefore the building blocks can be turned over to turn 90 degrees and be combined with the vertical dovetail block with the dovetail groove of adjacent another building blocks level, and then two building blocks are fixed with 90 degree of right-angled intersections.
Turtledove shape building blocks according to claim 1, which is characterized in that the height of the building blocks is greater than the thickness of the dovetail block, and respectively the dovetail block is substantially located at the central position on each side.
Turtledove shape building blocks according to claim 1, which is characterized in that further include the perforation for being set to the building blocks centre, through between top surface and the bottom surface of the building blocks.
Turtledove shape building blocks according to claim 9, which is characterized in that the perforation has hexagonal outline.