CN207539620U - A kind of splicing structure - Google Patents

Abstract

The utility model discloses a kind of splicing structures, and including multiple first assembled rigid units, each first assembled rigid unit includes main part and connecting portion, and the contour shape of main part is equilateral 6n sides shape；Connecting portion be arranged on each main part it is each it is equilateral on；It is each it is equilateral on connecting portion be connected by pin assembling structure with adjacent each first assembled rigid unit, pin assembling structure between the first assembled rigid unit of any two includes the first pin hole being disposed therein on the connecting portion of first assembled rigid unit, be arranged on the connecting portion of another the first assembled rigid unit and can the second positive pin hole opposite with the first pin hole, can be inserted into the axis pin of the first pin hole and the second pin hole, the extending direction of the first pin hole and the second pin hole is identical with the equilateral extending direction where it.Splicing structure provided by the utility model, assembled rigid unit realize connection and dismounting, and after the completion of assembly by way of pin assembling structure, cannot remove under field conditions (factors), have higher reliability.

Description

A kind of splicing structure

Technical field

The utility model is related to connecting elements technical field, more specifically to a kind of splicing structure.

Background technology

The connection mode of traditional splicing structure is mostly using modes such as bolt pair, rivet, welding, and connection mode is constructed in this Trouble, parts are more, and the firmness of quality of connection and connection is not easy to ensure, labor hour and costly is especially larger System engineering, using traditional connection mode, the construction time is long, of high cost, inefficiency, and later period maintenance cost is surprising.

Moreover, using existing connection mode, globality should not ensure, small careless mistake easily influences entire assembling structure, and small Careless mistake, which goes wrong, to be checked.

Therefore, how existing splicing structure is improved, improves connectivity robustness, reduced installation part, reduce cost, It is the current technical issues that need to address of those skilled in the art.

Utility model content

The purpose of this utility model is to provide a kind of splicing structure, assembled rigid unit is realized by way of pin assembling structure Connection and dismounting, and after the completion of assembly, cannot remove under field conditions (factors), there is higher reliability.In addition, assembled complete Afterwards, the Joint failure of a certain position can't influence integrally-built intensity.And this kind of splicing structure assembly process is simple, Additional connector is not required to, cost is relatively low.

A kind of splicing structure provided by the utility model, including multiple first assembled rigid units, each described first is assembled single Member includes main part and connecting portion, and the contour shape of the main part is equilateral 6n sides shape, wherein, n is positive integer；The company Socket part is arranged on each equilateral upper of each main part and is connected as one formula structure with the main part；It is each described The connecting portion on equilateral is connected by pin assembling structure with adjacent each first assembled rigid unit, described in any two The pin assembling structure between first assembled rigid unit includes being disposed therein on the connecting portion of first assembled rigid unit The first pin hole, be arranged on the connecting portion of another first assembled rigid unit and can be opposite just with first pin hole The second pin hole, the axis pin of first pin hole and second pin hole, first pin hole and described second can be inserted into The extending direction of pin hole is identical with the equilateral extending direction where it.

Preferably, in same first assembled rigid unit in two connecting portions of arbitrary neighborhood, one of them is equipped with two A first pin hole, another is set there are two second pin hole, and gap is equipped between two first pin holes；Two institutes It states in the first assembled rigid unit, two second pin holes of one of them first assembled rigid unit can be installed on described in two Between the gap of first pin hole.

Gap is equipped between two second pin holes being preferably located on same connecting portion, axis pin is as described in two It is inserted into gap between second pin hole.

Preferably, the axis pin includes the first pin portion and the second pin portion, and the first pin portion and the second pin portion pass through Elastic supporting member for supporting optical member links together, and the elastic supporting member for supporting optical member can support the first pin portion and the second pin portion along described Two pin holes slide, and the elastic supporting member for supporting optical member can be pulled out by the gap between two second pin holes.

Preferably, first pin hole be internally provided with for limit the axis pin position protrusion.

Preferably, the elastic supporting member for supporting optical member is the thin elastic rod for being connected to the first pin portion and the second pin portion, institute The both ends for stating thin elastic rod are hinged, and the medium position of the thin elastic rod with the first pin portion and the second pin portion respectively By being hingedly connected together.

Preferably, the angle between the connecting portion of first assembled rigid unit and the main part is 90 ° or non-90 degree.

Preferably, the second assembled rigid unit is further included, second assembled rigid unit includes main part and connecting portion, and described second The contour shape of the main part of assembled rigid unit is polygon, and the connecting portion of second assembled rigid unit is arranged on second assembly Formula structure is connected as one on the side of the main part of unit and with main part；The connecting portion of second assembled rigid unit can be with The connecting portion of first assembled rigid unit is connected and the connecting portion of second assembled rigid unit can be spelled with other described second The connecting portion of dress unit is connected.

Preferably, the connecting portion of the connecting portion of second assembled rigid unit and first assembled rigid unit and with other institutes The connecting portion for stating the second assembled rigid unit is connected by the pin assembling structure.

Preferably, the angle between the connecting portion and its main part of second assembled rigid unit is 90 ° or non-90 degree.

Preferably, groove is equipped between the connecting portion and the main part, so that the connecting portion generates flexible deformation, The splicing structure, which further includes, to be detachably connected to assembled rigid unit and the connecting portion can be prevented to generate elastically-deformable branch Support muscle.

Preferably, assembled rigid unit is equipped with the buckle for installing the supporting rib.

Preferably, the main part or connecting portion of first assembled rigid unit and second assembled rigid unit are equipped with to add Gu the ruggedized construction of the axis pin.

Preferably, the main part of first assembled rigid unit and second assembled rigid unit includes being connected to one by shaft The two parts that rise, can be relatively rotated.

In technical solution provided by the utility model, the main part of the first assembled rigid unit is equilateral 6n sides shape, wherein, (n= 1,2,3,4,5,6 grade natural numbers), for example, as n=1, the main part of the first assembled rigid unit is equilateral 6 side shape, as n=2, The main part of second assembled rigid unit is 12 side shapes.

The main part of first assembled rigid unit is connected with connecting portion, connecting portion be connected to main part it is each it is equilateral on, It should be noted that this it is equilateral when referring to equal in shape of equilateral 6n in an arbitrary side.It is each it is equilateral on connection Portion is connected by pin assembling structure with adjacent each first assembled rigid unit, the pin dress knot between the first assembled rigid unit of any two Structure includes the first pin hole being disposed therein on the connecting portion of first assembled rigid unit, is arranged on another the first assembled list It is on the connecting portion of member and can the second positive pin hole opposite with the first pin hole, the first pin hole and the second pin hole can be inserted into The extending direction of axis pin, the first pin hole and the second pin hole is identical with the equilateral extending direction where it.

So set, equilateral 6n in 6n of shape in any one side all realized with other assembled rigid units on periphery Axis pin connects, during connection, by the way that axis pin is inserted into the first pin hole and the second pin hole, by pin joint direction and its institute of axis pin Equilateral extending direction it is identical, after the completion of connection, pin assembling structure that axis direction intersects at a point can be formed mutually about Beam, that is, selling the axial displacement of assembling structure can be locked.In this way, under field conditions (factors), pin assembling structure will not be unlocked.And when it In some pin assembling structure Joint failure when, do not interfere with overall construction intensity.

Description of the drawings

It in order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it can also be obtained according to these attached drawings other attached drawings.

Fig. 1 is the structure diagram of the first assembled rigid unit in the utility model embodiment；

Fig. 2 is the schematic diagram of splicing structure in the utility model embodiment；

Fig. 3 is the dimensional structure diagram of the first assembled rigid unit in the utility model embodiment；

Fig. 4 is schematic diagram when the first pin hole and the second pin hole are disconnected in the utility model embodiment；

Fig. 5 be in the utility model embodiment the first pin hole and the second pin hole pin joint together when schematic diagram；

Fig. 6-Fig. 8 is the schematic shapes of the second assembled rigid unit in the utility model embodiment；

Fig. 9 is the first assembled rigid unit schematic diagram that supporting rib is not provided in the utility model embodiment；

Figure 10 is the assembling schematic diagram for the first assembled rigid unit that supporting rib is provided in the utility model embodiment；

Figure 11 is the structure diagram for the first assembled rigid unit for being capable of doubling；

Figure 12 is the main structure diagram of the assembled rigid unit equipped with ruggedized construction；

Figure 13 is the side view partial schematic diagram of the assembled rigid unit equipped with ruggedized construction；

Schematic diagram when Figure 14-Figure 17 is the first pin hole and main part is each different angle；

Schematic diagram when Figure 18-Figure 21 is the second pin hole and main part is each different angle.

In Fig. 1-Figure 21：

First assembled rigid unit -11, main part -12, connecting portion -13, the first pin hole -14, the second pin hole -15, etc. It is side -16, axis pin -17, the first pin portion -18, the second pin portion -19, the second assembled rigid unit -20, elastic supporting member for supporting optical member -21, convex Play -22, groove -23, buckle -24, supporting rib -25；Ruggedized construction -26.

Specific embodiment

Present embodiment is designed to provide a kind of splicing structure, and assembled rigid unit is by way of pin assembling structure Realize connection and dismounting, and after the completion of assembly, cannot remove under field conditions (factors) that there is higher reliability.It is in addition, assembled After the completion, the Joint failure of a certain position can't influence integrally-built intensity.And this kind of splicing structure assembly process letter It is single, additional connector is not required to, cost is relatively low.

Hereinafter, embodiment is illustrated with reference to attached drawing.In addition, embodiments illustrated below is not to recorded in claim Utility model content rise any restriction effect.In addition, the full content of the composition represented by example below is not limited to conduct Necessary to the solution of utility model recorded in claim.

Please refer to Fig.1-Fig. 8, a kind of splicing structure provided in this embodiment, including multiple first assembled rigid units 11.First Assembled rigid unit 11 can be specially plate or block structure.Each first assembled rigid unit 11 includes main part 12 and connecting portion 13。

Wherein, the contour shape of main part 12 is equilateral 6n sides shape, wherein, n is positive integer, for example, n can be 1, works as n When being 1, the contour shape of main part 12 is equilateral hexagon, and when n is 2, the contour shape of main part 12 is equilateral twelve edge Shape, when n is 3, the contour shape of main part 12 is equilateral ten octagon etc..

A connecting portion 13 is designed on equilateral the 16 of each main part 12, connecting portion 13 is integral type knot with main part 12 Structure, for example, specifically formula structure can be connected as one by the modes such as being molded or welding.

Connecting portion 13 on each equilateral the 16 of the main part 12 of first assembled rigid unit 11 can pass through pin assembling structure and phase Adjacent each first assembled rigid unit 11 is connected, for example, when the main part 12 of the first assembled rigid unit 11 is regular hexagon, six Connecting portion 13 on a side can be connect with six the first assembled rigid units of others 11 by pin assembling structure.

Pin assembling structure between the first assembled rigid unit of any two 11 includes being disposed therein first assembled rigid unit The first pin hole 14 on 11 connecting portion 13, be arranged on the connecting portion 13 of another the first assembled rigid unit 11 and can be with The second relatively positive pin hole 15 of one pin hole 14 and the axis pin that can be inserted into simultaneously on the first pin hole 14 and the second pin hole 15 17。

The axial direction of above-mentioned first pin hole, 14 and second pin hole 15 and equilateral 16 extending direction where it, i.e. axis pin 17 will When first pin hole 14 and the second pin hole 15 are serially connected, axis pin 17 enters the first pin along equilateral 16 extending direction pin where it In 14 and second pin hole 15 of hole.

In the present embodiment, the first pin hole 14 and the second pin hole 15 can be the hole that formation is directly molded on connecting portion 13, Or the hole gone out by tool processes.

It should be noted that when above-mentioned the first assembled rigid unit of any two 11 is bolted together, connected by pin assembling structure Connect, specifically by the first pin hole 14 of two the first assembled rigid units 11 and the second pin hole 15 to after just, by axis pin 17 sell into Among first pin hole 14 and the second pin hole 15.

So set, equilateral 6n in 6n of shape in any one side all realized with other assembled rigid units on periphery Assembling structure connection is sold, since the pin joint direction of axis pin 17 is identical with equilateral 16 extending direction where it, after the completion of connection, The pin assembling structure that axis direction intersects at a point can form mutual constraint, that is, sell the axial displacement of assembling structure and can be locked.This Sample, under field conditions (factors), since its axial freedom is limited, pin assembling structure will not be unlocked.And it ought wherein some pin fill During structure Joint failure, overall construction intensity is not interfered with.

For example, after three adjacent pin assembling structures all complete connection, the axial direction of three pin assembling structures intersects at same point, First pin hole 14 of one of pin assembling structure and the axial separation of the second pin hole 15 can be by the pacts of other two pin assembling structure Shu Zuoyong, in this way, three pin assembling structures will not all generate slip under effect of contraction.

In this way, each after the completion of pin assembling structure assembly, it all can be by the effect of contraction of other two pin assembling structures, in nature Under the conditions of, pin assembling structure will not be unlocked.And when wherein some pin assembling structure Joint failure when, other two pin assembling structure according to It can so constrain one another.The damage of first concatenation unit 11 of part will not influence the constraint between whole pin assembling structure, into Without influencing overall construction intensity.

In the preferred embodiment of the present embodiment, in same first assembled rigid unit 11 in two connecting portions 13 of arbitrary neighborhood, One of them is set there are two the first pin hole 14, another is set there are two the second pin hole 15, between being equipped between two the first pin holes 14 Gap, the gap can accommodate two the second pin holes 15.

So set, when two the first assembled rigid units 11 are assembled, in two the first assembled rigid units 11, one of them first spelling Dress unit 1 two the second pin holes 15 can be installed on another the first assembled rigid unit 11 two the first pin holes 14 gap it Between, when one of assembled rigid unit two the second pin holes 15 and another the first assembled rigid unit two the first pin holes 14 one by one After correspondence, axis pin 17 is inserted respectively into two pair of first 14 and second pin hole 15 of pin hole, in this way, each pair of equilateral 16 connection, It is all attached by two pair of first 14 and second pin hole 15 of pin hole, there is preferable stability.

Certainly, in other embodiments, it is each pair of link together it is equilateral on, also can only pass through 14 He of the first pin hole One the second pin hole 15 links together, alternatively, being linked together by two the first pin holes 14 and second pin hole 15.

In addition, dismounting for convenience, gap is also equipped between two the second pin holes 15 on above-mentioned same equilateral 16, When axis pin 17 is installed, the installation of axis pin 17 can be entered by the gap between two the second pin holes 15.

In preferred embodiment, axis pin 17 can include the first pin portion 18 and the second pin portion 19, the first pin portion 18 and the second pin Portion 19 is linked together by elastic supporting member for supporting optical member 21, and elastic supporting member for supporting optical member 21 can support the first pin portion 18 and the second pin portion 19 along Two pin holes 15 slide, and elastic supporting member for supporting optical member 21 can be pulled out by the gap between two the second pin holes 15.

So set, when by axis pin 17, two pair of first 14 and second pin hole 15 of pin hole pin is fitted together, can make respectively Among first pin portion 18 and the second pin portion 19 enter two the second pin holes 15 by the gap between two the second pin holes 15, so Afterwards, elastic supporting member for supporting optical member 21 is pushed, under the active force of elastic supporting member for supporting optical member 21, the first pin portion 18 and the second pin portion 19 are respectively to two The depths displacement of second pin hole 15, until the first pin hole 14 and the second pin hole 15 pin are fitted together.Elastic supporting member for supporting optical member 21 supports It between the first pin portion 18 and the second pin portion 19, while can prevent the first pin portion 18 and the second pin portion 19 from mutually drawing close, and lead Cause the first pin hole 14 and the second pin hole 15 in its natural state Joint failure the problem of.

When disassembly is desired, then elastic supporting member for supporting optical member 21 is pulled out by the interstitial site between two the second pin holes 15, The first pin portion 18 at its both ends and the second pin portion 19 can be pulled out two the second pin holes 15 by elastic supporting member for supporting optical member 21 respectively, so complete Into dismounting.

The first pin portion 18 and the second pin portion 19 are excessive along the displacement of two the first pin holes 14 in order to prevent, and cause and second The problem of pin hole 15 is detached from, in the preferred embodiment of the present embodiment, the first pin hole 14 is internally provided with the position for limiting axis pin 17 Protrusion 22.

When the first pin portion 18 and the second pin portion 19 are inserted between the first pin hole 14 and the second pin hole 15, the first pin portion 18 and second pin portion 19 be against together with above-mentioned raised 22 respectively, prevent the first pin portion 18 and the second pin portion 19 from continuing to anteposition The problem of moving, and being disconnected the first pin hole 14 and the second pin hole 15.

Above-mentioned elastic supporting member for supporting optical member 21 can be specially thin elastic rod, and material can be specially plastics, rubber, steel wire etc., The both ends of thin elastic rod are hinged with the first pin portion 18 and the second pin portion 19 respectively, so that thin elastic rod and the first pin portion 18 and second The connection angle of 19 link position of pin portion can change with the displacement of thin elastic rod, avoid the occurrence of the problem of stuck.In order to Convenient for pulling thin elastic rod, thin elastic rod can be specially two sections, and two section is by being hingedly connected together.

It should be noted that the splicing structure being assembled by multiple first assembled rigid units 11, appearance profile are more single One, appearance is poor, shape is more single.In order to make the global shape of splicing structure provided in this embodiment more horn of plenty. Splicing structure provided in this embodiment, further includes the second assembled rigid unit 20, and the second assembled rigid unit 20 includes main part and connecting portion.

Moreover, the contour shape of the main part 12 of the second assembled rigid unit is polygon, for example, as shown in figs. 6-8 Triangle, trapezoidal, diamond shape etc..In addition, it is necessary to explanation, the side of the main part of above-mentioned second assembled rigid unit can be along straight line The structure of extension or the structure extended along curve, correspondingly, the extending direction of connecting portion can be with the shape on the side of main part Shape is consistent, naturally it is also possible to and it is inconsistent, specifically can specifically it be set according to actual conditions.

The connecting portion of second assembled rigid unit 20 is arranged on the side 16 of the main part of the second assembled rigid unit 20 and and main part Formula structure is connected as one, the connecting portion of the second assembled rigid unit 20 can be connected with the connecting portion 13 of the first assembled rigid unit 11.

In this way, by increasing by the second assembled rigid unit 20 on splicing structure, the whole outer edge of splicing structure can be made Shape generates variation, enriches the configuration design of splicing structure.

Equally, the connecting portion of above-mentioned second assembled rigid unit 20 is similar to the connecting portion 13 of the first assembled rigid unit 11, can also For can be with the pin assembling structure of the first assembled rigid unit 11.Pin assembling structure specifically can refer to described above, no longer be repeated herein.

In addition, the first assembled rigid unit and the second assembled rigid unit, can be equipped with angle between the main part and connecting portion of the two, The angle can be 90 °, acute angle or obtuse angle, in this way, when the angle difference between main part and connecting portion, what assembly was formed Shape and structure is also different, specifically can specifically be set according to actual conditions

For the ease of dismounting each first assembled rigid unit, in the present embodiment, the connecting portion and main part of the first assembled rigid unit Between can be equipped with groove 23, so as to connecting portion generate flexible deformation, splicing structure, which further includes, is detachably connected to the first spelling The supporting rib 25 on unit is filled, when supporting rib 25 is supported in the first assembled rigid unit, connecting portion can be prevented to generate elastic shape Become.So set, when needing to connect each first assembled rigid unit, connecting portion can be made to generate elastic deformation, to make connecting portion It is connected.After linking together, by supporting rib 25 be mounted on the first assembled rigid unit on, prevent connecting portion generate elastic deformation and Lead to Joint failure.

Further, it for the ease of installing supporting rib, can be equipped with that supporting rib 25 is installed in the first assembled rigid unit Buckle 24.

Equally, for the ease of assembled second concatenation unit, the second concatenation unit can also be set such as above-mentioned first assembled rigid unit, It is no longer repeated herein.

In the present embodiment, the main part of the first assembled rigid unit and the second assembled rigid unit can be divided into two parts, the two parts It can be can be rotationally connected by pin assembling structure, as shown in figure 11.

In addition, also can be between the first assembled rigid unit and the first pin hole of the second assembled rigid unit and the second pin hole and main part Certain angle, as Figure 14-Figure 17 is the first pin hole with main part be each different angle when schematic diagram, Figure 18-Figure 21 is Schematic diagram when second pin hole and main part are each different angle.

Splicing structure provided in this embodiment, when in certain application scenarios, the active force being subject to is larger, in order to axis pin It is protected, in preferred embodiment provided in this embodiment, reinforcing is provided preferably in the main part or connecting portion of assembled rigid unit Structure 26.

For example, when the cross section of axis pin is round, ruggedized construction 26 can include the arc panel around axis pin setting, such as Shown in Figure 12 and Figure 13.Arc panel can play support axis pin, prevent axis pin by radial load it is excessive and cause deformation the problem of.When When the cross section of axis pin is other shapes, for example polygon, ruggedized construction can include the securing plate of correspondingly-shaped, herein no longer It is introduced one by one.

The foregoing description of the disclosed embodiments enables professional and technical personnel in the field to realize or new using this practicality Type.A variety of modifications of these embodiments will be apparent for those skilled in the art, determine herein The General Principle of justice can be realized in other embodiments without departing from the spirit or scope of the present utility model.Cause This, the utility model is not intended to be limited to the embodiments shown herein, and is to fit to and principles disclosed herein The most wide range consistent with features of novelty.

Claims (14)

1. a kind of splicing structure, which is characterized in that including multiple first assembled rigid units, each first assembled rigid unit includes Main part and connecting portion, the contour shape of the main part is equilateral 6n sides shape, wherein, n is positive integer；The connecting portion setting Each main part it is each it is equilateral on and with the main part be connected as one formula structure；It is each it is described it is equilateral on The connecting portion is connected by pin assembling structure with adjacent each first assembled rigid unit, and first is assembled described in any two The pin assembling structure between unit includes the first pin being disposed therein on the connecting portion of first assembled rigid unit Hole, be arranged on the connecting portion of another first assembled rigid unit and being capable of positive second pin opposite with first pin hole Hole, the axis pin that can be inserted into first pin hole and second pin hole, first pin hole and second pin hole prolong It is identical with the equilateral extending direction where it to stretch direction；

The main part is planar structure, and the connecting portion of multiple first assembled rigid units is connected to one by the pin assembling structure When rising, plane entirety can be formed.

2. splicing structure as described in claim 1, which is characterized in that arbitrary neighborhood in same first assembled rigid unit In two connecting portions, one of them is set there are two first pin hole, another is set there are two second pin hole, described in two Gap is equipped between first pin hole；In two first assembled rigid units, two institutes of one of them first assembled rigid unit Stating the second pin hole can be installed between the gap of two first pin holes.

3. splicing structure as claimed in claim 2, which is characterized in that two second pin holes on same connecting portion Between be equipped with gap, axis pin in the gap between two second pin holes by being inserted into.

4. splicing structure as claimed in claim 3, which is characterized in that the axis pin includes the first pin portion and the second pin portion, institute It states the first pin portion and the second pin portion to link together by elastic supporting member for supporting optical member, the elastic supporting member for supporting optical member can support described One pin portion and the second pin portion are slided along second pin hole, and the elastic supporting member for supporting optical member can be by two second pin holes Between gap pull out.

5. splicing structure as claimed in claim 4, which is characterized in that first pin hole is internally provided with to limit the pin The protrusion of the position of axis.

6. splicing structure as claimed in claim 4, which is characterized in that the elastic supporting member for supporting optical member is is connected to the first pin portion With the thin elastic rod in the second pin portion, the both ends of the thin elastic rod are cut with scissors respectively with the first pin portion and the second pin portion It connects, and the medium position of the thin elastic rod is by being hingedly connected together.

7. splicing structure as described in claim 1, which is characterized in that the connecting portion of first assembled rigid unit and the main body Angle between portion is 90 ° or non-90 degree.

8. such as claim 1-7 any one of them splicing structures, which is characterized in that further include the second assembled rigid unit, described the Two assembled rigid units include main part and connecting portion, and the contour shape of the main part of second assembled rigid unit is polygon, described The connecting portion of second assembled rigid unit is arranged on the side of the main part of second assembled rigid unit and is connected as one with main part Formula structure；The connecting portion of second assembled rigid unit can be connected and described with the connecting portion of first assembled rigid unit The connecting portion of two assembled rigid units can be connected with the connecting portion of other second assembled rigid units.

9. splicing structure as claimed in claim 8, which is characterized in that the connecting portion of second assembled rigid unit and described first The connecting portion of assembled rigid unit and it is connected with the connecting portion of other second assembled rigid units by the pin assembling structure.

10. splicing structure as claimed in claim 9, which is characterized in that the connecting portion of second assembled rigid unit and its main body Angle between portion is 90 ° or non-90 degree.

11. splicing structure as claimed in claim 8, which is characterized in that ditch is equipped between the connecting portion and the main part Slot generates flexible deformation so as to the connecting portion, and the splicing structure, which further includes, is detachably connected to assembled rigid unit and can The connecting portion is prevented to generate elastically-deformable supporting rib.

12. splicing structure as claimed in claim 11, which is characterized in that assembled rigid unit is equipped with to install the supporting rib Buckle.

13. splicing structure as claimed in claim 9, which is characterized in that first assembled rigid unit and the second assembled list The main part or connecting portion of member are equipped with the ruggedized construction for reinforcing the axis pin.

14. splicing structure as claimed in claim 9, which is characterized in that first assembled rigid unit and the second assembled list The main part of member includes the two parts that links together, can relatively rotate by shaft.