CN207145956U - A kind of splicing structure - Google Patents
A kind of splicing structure Download PDFInfo
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- CN207145956U CN207145956U CN201721139933.4U CN201721139933U CN207145956U CN 207145956 U CN207145956 U CN 207145956U CN 201721139933 U CN201721139933 U CN 201721139933U CN 207145956 U CN207145956 U CN 207145956U
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- rigid unit
- chute
- connecting portion
- pin
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Abstract
The utility model discloses a kind of splicing structure, 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 6n sides shape;Connecting portion on each side is connected by sliding pair with adjacent each first assembled rigid unit, main part is curved structure or bending structure, when the connecting portion of multiple first assembled rigid units is linked together by sliding pair, it is overall that curved overall or bending can be formed.It is arranged such, splicing structure provided by the utility model, its assembled rigid unit realizes connection and dismounting by way of being slidably matched, and after the completion of assembly, can not remove under field conditions (factors), has higher reliability.In addition, after the completion of assembly, the Joint failure of a certain position, integrally-built intensity can't be influenceed.And this kind of splicing structure assembly process is simple, is not required to extra connector, cost is relatively low, and can realize abundant spatial modelling.
Description
Technical field
Connecting elements technical field is the utility model is related to, more specifically to a kind of splicing structure.
Background technology
The connected mode of traditional splicing structure is more using modes such as bolt pair, rivet, welding, and connected 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 connected mode, engineering time length, cost is high, and efficiency is low, and later period maintenance cost is surprising.
Moreover, using existing connected mode, globality should not ensure that small careless mistake easily influences whole 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, and its assembled rigid unit is realized by way of being slidably matched
Connection and dismounting, and after the completion of assembly, can not remove under field conditions (factors), there is higher reliability.In addition, assembled complete
Afterwards, the Joint failure of a certain position, integrally-built intensity can't be influenceed.And this kind of splicing structure assembly process is simple,
Extra connector is not required to, cost is relatively low.Moreover, splicing structure provided by the utility model can realize a variety of spatial modellings.
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 6n sides shape, wherein, n is positive integer;The connecting portion
It is arranged on each side of each main part and connects as one formula structure with the main part;On each side
The connecting portion is connected by sliding pair with adjacent each first assembled rigid unit, and first is assembled single described in any two
The sliding pair between member include the first chute being disposed therein on the connecting portion of first assembled rigid unit and
It is arranged on the connecting portion of another first assembled rigid unit and can be connected with first chute and along described
The sliding matching structure of one slide, the glide direction of the sliding pair are identical with the bearing of trend on the side where it;Institute
It is curved structure or bending structure to state main part, and the connecting portion of multiple first assembled rigid units is connected by the sliding pair
When together, it is overall that curved overall or bending can be formed.
Preferably, the main part is shaped as arcuate structure.
Preferably, in same first assembled rigid unit in two connecting portions of arbitrary neighborhood, one of them is provided with institute
State the first chute, another be provided with the sliding matching structure.
Preferably, the sliding matching structure is the notch court of the second chute, first chute and second chute
To on the contrary, and first chute and the second chute can be intermeshed.
Preferably, the sidewall thickness that first chute is inserted into second chute is less than or equal to described second and slided
The width of groove, the sidewall thickness that second chute is inserted into first chute are less than or equal to the width of first chute
Degree.
Preferably, first chute and second chute, along the one or both ends of the glide direction be equipped with cunning
Entrance structure.
Preferably, the sliding matching structure is that can extend into " L " type slide fastener in first chute, " L "
The side wall of type slide fastener is inserted into first chute.
Preferably, the width of rebate of first chute is less than width between groove sidewall, and the sliding matching structure is energy
The T-shape slide fastener being enough inserted into first chute.
Preferably, the angle between the connecting portion and its main part of first assembled rigid unit is 90 ° or non-90 degree.
Preferably, in addition to the second assembled rigid unit, 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.
Preferably, the connecting portion of second assembled rigid unit is that can match with the first chute of first assembled rigid unit
The sliding matching structure of conjunction or the chute being engaged with the sliding matching structure of first assembled rigid unit.
Preferably, the angle between the connecting portion and its main part of second assembled rigid unit is 90 ° or non-90 degree.
Preferably, the connecting portion on the side also passes through pin assembling structure and adjacent each first assembled rigid unit
It is connected, the pin assembling structure between the first assembled rigid unit described in any two includes being disposed therein one described first
The first pin-and-hole on the connecting portion of assembled rigid unit, be arranged on the connecting portion of another first assembled rigid unit and can be with
The second relatively positive pin-and-hole of first pin-and-hole, the bearing pin that first pin-and-hole and second pin-and-hole can be inserted into, it is described
The bearing of trend of first pin-and-hole and second pin-and-hole is identical with the bearing of trend on the side where it.
Preferably, the connecting portion on the side of second assembled rigid unit also passes through pin assembling structure and adjacent each institute
State the first assembled rigid unit or second assembled rigid unit is connected, the pin assembling structure includes being disposed therein a connecting portion
On the first pin-and-hole, be arranged on another described connecting portion and can the second positive pin-and-hole relative with first pin-and-hole,
The extension side of the bearing pin of first pin-and-hole and second pin-and-hole, first pin-and-hole and second pin-and-hole can be inserted into
The bearing of trend on the side where Xiang Yuqi is identical.
Preferably, groove is provided between the connecting portion and the main part, so that the connecting portion produces elastic deformation,
The splicing structure also includes the brace rod being detachably connected in assembled rigid unit, when the brace rod is supported on the assembly
When on unit, the connecting portion can be prevented to produce elastic deformation.
Preferably, the assembled rigid unit is provided with the buckle for brace rod described in holding.
In technical scheme provided by the utility model, the main part of the first assembled rigid unit is 6n sides shape, wherein, (n=1,2,
3,4,5,6 grade natural numbers), such as, as n=1, the main part of the first assembled rigid unit is 6 side shapes, and as n=2, second is assembled
The main part of unit is 12 side shapes.
The main part of first assembled rigid unit is connected with connecting portion, and connecting portion is connected on each side of main part, needs
It is noted that this when referring to 6n in shape in arbitrary one, at.Connecting portion on each side passes through sliding pair and phase
Adjacent each first assembled rigid unit is connected, and the sliding pair between the assembled rigid unit of any two first includes being disposed therein one
The first chute on the connecting portion of individual first assembled rigid unit and it is arranged on the connecting portion of another first assembled rigid unit
And it can be connected with first chute and along the sliding matching structure of first slide, the glide direction of sliding pair
It is identical with the bearing of trend on the side where it.
Be arranged such, 6n in 6n of shape in other assembled rigid units of any one side all with periphery realize slip
Pair connection, during connection, by the way that sliding matching structure is slided into the first chute, due to glide direction be with where sliding pair
The direction on side is identical, after the completion of the sliding pair that the extension line of glide direction intersects at a point all is slidably connected, then several cunnings
Mutual constraint can be formed by moving secondary free sliding degree.So, under field conditions (factors), sliding pair will not be untied.And ought wherein certain
During one sliding pair Joint failure, overall construction intensity is not interfered with.Splicing structure provided by the utility model, assembly are completed
Afterwards,, it is necessary to using specific purpose tool, to drive the first associated assembled rigid unit mutual to single assembled rigid unit is split
With resultant displacement, sliding pair could be split.
Further, since main part provided by the utility model is curved structure or bending structure, multiple first is assembled single
When the connecting portion of member is linked together by above-mentioned sliding pair, curved overall or bending entirety can be formed, so can be real
The splicing structure of existing a variety of spatial modelling structures.
Brief description of the drawings
, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art
Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are only
It is some embodiments of the utility model, for those of ordinary skill in the art, is not paying the premise of creative work
Under, other accompanying drawings can also be obtained according to these accompanying drawings.
Fig. 1 is the structural representation 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 side structure schematic diagram of the first assembled rigid unit in the utility model embodiment;
Fig. 4 is the first chute enlarged diagram in the utility model embodiment;
Fig. 5 is the first sliding pair structural representation in the utility model embodiment;
Fig. 6 is second of sliding pair structural representation in the utility model embodiment;
Fig. 7 is the third sliding pair structural representation in the utility model embodiment;
Fig. 8 is the 4th kind of sliding pair structural representation in the utility model embodiment;
Fig. 9-Figure 11 is the main part outline drawing of the second assembled rigid unit in the utility model embodiment;
Figure 12 is the schematic diagram of the first assembled rigid unit of arcuate structure in the utility model embodiment;
Figure 13 is side signal when the first assembled rigid unit of arcuate structure in the utility model embodiment fits together
Figure;
Figure 14 is the schematic diagram of first assembled rigid unit in the utility model embodiment with pin assembling structure;
Figure 15 is the splicing structure schematic diagram of first assembled rigid unit in the utility model embodiment with pin assembling structure;
Figure 16 is main part and the first assembled rigid unit schematic diagram that connecting portion angle is acute angle in the utility model embodiment;
Figure 17 be in the utility model embodiment main part and connecting portion angle be acute angle the first assembled rigid unit assembly
Schematic diagram;
Figure 18 is the schematic diagram for the first assembled rigid unit that brace rod is provided with the utility model embodiment;
Figure 19 is the first assembled rigid unit assembling schematic diagram in the utility model embodiment;
Figure 20 is main part and the first assembled rigid unit schematic diagram that connecting portion angle is obtuse angle in the utility model embodiment;
Figure 21 be in the utility model embodiment main part and connecting portion angle be obtuse angle the first assembled rigid unit assembly
Schematic diagram.
In Fig. 1-Figure 21:
First assembled rigid unit -11, main part -12, connecting portion -13, the first chute -14, sliding matching structure -15,
Side -16, " L " type slide fastener -17, T-shape slide fastener -18, slip into mouth structure -19, the second assembled rigid unit -20, groove sidewall -
21st, groove bottom wall -22, the second chute -23, pin assembling structure -25, groove -26, buckle -27, brace rod -28.
Embodiment
The purpose of present embodiment is to provide a kind of splicing structure, and its assembled rigid unit is by way of being slidably matched
Connection and dismounting are realized, and after the completion of assembly, can not be removed under field conditions (factors), there is higher reliability.It is in addition, assembled
After the completion of, the Joint failure of a certain position, integrally-built intensity can't be influenceed.And this kind of splicing structure assembly process letter
It is single, extra connector is not required to, cost is relatively low.Moreover, the splicing structure can realize the spatial modelling of complexity.
Hereinafter, embodiment is illustrated referring to the drawings.In addition, embodiments illustrated below is not to described 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 described in claim.
It refer to Fig. 1-Figure 21, a kind of splicing structure that the present embodiment provides, including multiple first assembled rigid units 11.First
Assembled rigid unit 11 can be specially tabular 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 6n sides shape, wherein, n is positive integer, such as, n can be 1, when n is 1
When, the contour shape of main part 12 is hexagon, and when n is 2, the contour shape of main part 12 is dodecagon, when n is 3,
The contour shape of main part 12 is ten octagons etc..
A connecting portion 13 is designed with the side 16 of each main part 12, connecting portion 13 and main part 12 are integral type knot
Structure, such as, specifically formula structure can be connected as one by modes such as injection, metal plate or welding.
Connecting portion 13 on each side 16 of the main part 12 of first assembled rigid unit 11 by sliding pair with it is adjacent each
First assembled rigid unit 11 is connected, and the sliding pair between the first assembled rigid unit of any two 11 includes being disposed therein one the
The first chute 14 on the connecting portion 13 of one assembled rigid unit 11 and it is arranged on the connecting portion 13 of another the first assembled rigid unit 11
And can be connected with the first chute 14 and along the first chute 14 slide sliding matching structure 15, the glide direction of sliding pair
It is identical with the bearing of trend on the side 16 where it.
In the present embodiment, above-mentioned first chute 14 is provided with two groove sidewalls 21, and two groove sidewalls are set face-to-face, and keeps
One determining deviation, the spacing are groove width.The bottom of two groove sidewalls 21 is connected by the groove bottom wall 22 of the first chute 14, thus
Form the trench structure with two groove sidewalls and a groove bottom wall.
It should be noted that when above-mentioned the first assembled rigid unit of any two 11 is bolted together, connected by sliding pair
, specifically sliding matching structure 15 is slipped into the first chute 14.The bearing of trend of first chute 14 and the connection where it
The bearing of trend on the side 16 in portion 13 is identical, moreover, in order that sliding matching structure 15 can extend into inside the first chute 14, and
Slided along the first chute 14, top, the side i.e. relative with groove bottom wall 22 of the first chute 14 are unenclosed construction.First chute
14 development length can be consistent with the development length on the side 16 where it, or the development length less than the side 16 where it.
Be arranged such, 6n in 6n of shape in other assembled rigid units of any one side all with periphery realize slip
Pair connection, during connection, by the way that sliding matching structure 15 is slided into the first chute 14, by glide direction for sliding pair institute
Side 16 direction it is identical, when the extension line of glide direction intersect at same point sliding pair be all slidably connected after the completion of, then
The free sliding degree of several sliding pairs can form mutual constraint.
For example after three adjacent sliding pairs all complete connection, the glide direction of three sliding pairs intersects at same point,
The slip of one of sliding pair can be by the effect of contraction of two other sliding pair, and so, three sliding pairs are in effect of contraction
Under all without produce slip.
So, all can be by the effect of contraction of other two sliding pairs, in natural conditions after the completion of each sliding pair assembly
Under, sliding pair will not be untied.And when wherein some sliding pair Joint failure, two other sliding pair still can each other about
Beam.The damage of the first local concatenation unit, does not interfere with the constraint between overall sliding pair, and then do not interfere with entirety yet
Structural strength.
Further, since the main part 12 for the first assembled rigid unit 11 that the present embodiment provides is curved structure or bending knot
Structure, above-mentioned curved structure can be specially curved surface platy structure, and bending structure can be that plate-like structure once be bent or repeatedly
The structure being bent to form.
When the connecting portion of multiple first assembled rigid units is linked together by pin assembling structure, can be formed it is curved overall or
Bending is overall, can so realize the splicing structure of a variety of spatial modelling structures.
For example the main part 12 of the first assembled rigid unit 11 can be arcuate structure in the present embodiment, as shown in figure 12, when
When one assembled rigid unit 11 is assemblied into an entirety, it is also arcuate structure that this is overall, as shown in figure 13.
The main part of first assembled rigid unit can be once bending structure, or multiple bending structure.
It should be noted that the splicing structure that the present embodiment provides, after the completion of assembled, to single assembled rigid unit is torn open
Separate, it is necessary to using specific purpose tool, to apply the composite force of specific direction, drive the first associated assembled rigid unit 11 to produce connection
It is dynamic, it could realize and split each first assembled rigid unit 11 to come.
In the preferred scheme of the present embodiment, in same first assembled rigid unit 11 in two connecting portions 13 of arbitrary neighborhood,
One of them be provided with the first chute 14, another be provided with sliding matching structure 15.
It should be noted that above-mentioned two adjacent connecting portions 13, refer to be arranged on same assembled rigid unit main part 12
On adjacent two side 16 on connecting portion 13.So, the first assembled rigid unit of any two 11 can realize connection, and
And in the first more assembled rigid unit 11 of assembly, only arbitrary assembled rigid unit need to be selected to be attached.
In addition, it is necessary to explanation, mutual constraint of the above-mentioned each sliding pair in glide direction, define it is above-mentioned each
The coplanar interior free degree where sliding pair.
In order to realize each sliding pair perpendicular to above-mentioned coplanar interior vertical freedom degree (hereinafter referred to as vertical freedom simultaneously
Degree) mutual constraint.Above-mentioned sliding matching structure 15 is preferably the notch of the second chute 23, the first chute 14 and the second chute 23
Towards on the contrary, and the first chute 14 and the second chute 23 can be intermeshed, i.e. the groove side of the first chute 14 and the second chute 23
Wall is extend into mutually in mutual groove, moreover, the opening direction of the first chute 14 and the second chute 23 is opposite.
After the completion of the sliding pair assembly on adjacent side 16, due to adjacent two side 16 in same assembled rigid unit
On the first chute 14 and the second chute 23 notch it is in opposite direction, be specially:The first chute 14 in the assembled rigid unit with it is another
The second chute 23 in one assembled rigid unit cooperatively forms a sliding pair, the second chute 23 in the assembled rigid unit and another
The first chute 14 in assembled rigid unit cooperatively forms another sliding pair, the vertical freedom degrees of the two sliding pairs on the contrary, and then
Stable assembly can be realized on vertical with constrained each other.So, after completing assembled, two sliding pairs will be formed
Mutually constraint, and then avoid the first chute 14 for forming same sliding pair and the problem of the second chute 23 is mutually disengaged.
The bearing of trend of the above-mentioned chute 23 of first chute 14 and second is identical with the bearing of trend on the side 16 where it, and
And the development length on side 16 that development length is preferably lower than or equal to where it.So, adjacent two in same assembled rigid unit
Certain gap between individual chute be present, form and slip into mouth structure 19.In order to facilitate installation, the first chute 14 and the second chute
The both ends of 23 bearing of trend are designed with above-mentioned slipping into mouth structure 19.
In addition, in order to improve the stability after the completion of assembly, the first chute 14 is inserted into the side thickness in the second chute 23
Degree is equal with the width of the second chute 23, and the second chute 23 is inserted into sidewall thickness in the first chute 14 and the first chute 14
Width is equal.It is arranged such, when the first chute 14 and the mutual cooperation of the second chute 23, is ensure that the two being capable of relative slip
On the basis of, fit clearance therebetween is smaller, improves connective stability.
In the present embodiment, the first chute 14 and the second chute be arranged on it is recessed on the upper face and lower face of connecting portion 13
Groove.So, when each first assembled rigid unit 11 is stitched together, formation be an entirety larger area flat board knot
Structure, go for every field.
Certainly, in other embodiments, connecting portion 13 can also be raised in main part 12 or be set less than main part 12, when
When connecting portion 13 is raised in the setting of main part 12, the depth of the first chute 14 and the second chute 23 can be made to be more than main part 12
Thickness, make cooperation area bigger, and then improve the reliability of cooperation.
In other embodiments, the specific setting of above-mentioned first chute 14 and sliding matching structure 15, may be alternatively provided as it
Its type, below content will enumerate several types and illustrate.
For example above-mentioned sliding matching structure 15 can be configured to " L " the type slide fastener 17 being inserted into the first chute 14,
The side wall of " L " type slide fastener 17 is inserted into the first chute 14.
For another example, the width of rebate of the first chute 14 could be arranged to width between less than two groove sidewalls, be slidably matched
Structure 15 is that can extend into the T-shape slide fastener 18 in the first chute 14.
In another embodiment of present embodiment, the first assembled rigid unit it is equilateral on connecting portion can pass through
On the basis of above-mentioned sliding pair and other first assembled rigid units link together, can also by pin assembling structure 25 with it is adjacent each
Individual first assembled rigid unit is connected, and the pin assembling structure between the assembled rigid unit of any two first includes being disposed therein one
The first pin-and-hole on the connecting portion of individual first assembled rigid unit, be arranged on the connecting portion of another the first assembled rigid unit and can
The second positive pin-and-hole relative with the first pin-and-hole, the bearing pin that the first pin-and-hole and the second pin-and-hole can be inserted into, the first pin-and-hole and second
The bearing of trend of pin-and-hole is identical with the equilateral bearing of trend where it.
It is arranged such, also can be by two the first assembled rigid units by being inserted into the bearing pin on the first pin-and-hole and the second pin-and-hole
It is bolted together.
For example above-mentioned pin assembling structure 25 can be provided with some side of the first assembled rigid unit, on remaining five sides
Provided with sliding pair, as shown in figure 14, the splicing structure of the assembled rigid unit of this kind first is as shown in figure 15.
It should be noted that the splicing structure being assembled into by multiple first assembled rigid units 11, its appearance profile are more single
One, and its edge is the 16 of 6n sides shape, and appearance is poor, shape is more single.In order that the assembly that the present embodiment provides
The global shape of structure more horn of plenty.The splicing structure that the present embodiment provides, in addition to the second assembled rigid unit 20, second is assembled single
Member 20 includes main part and connecting portion.
Moreover, the contour shape of the main part 12 of the second assembled rigid unit is polygon, such as, as shown in Fig. 9-Figure 11
Triangle, trapezoidal, rhombus etc..It should be noted that each side of the main part 12 of the second assembled rigid unit can be linear pattern,
It can be space curve type.And the bearing of trend of connecting portion is preferably consistent with the bearing of trend on the side of main part, certainly, also may be used
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 of the main part of the second assembled rigid unit 20 and connected with main part
Integral structure is connected in, 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.
So, by increasing by the second assembled rigid unit 20 on splicing structure, the overall outward flange of splicing structure can be made
Shape produces change, 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 the sliding matching structure that can be engaged with the first chute 14 of the first assembled rigid unit 11 or with the first assembled rigid unit 11
The chute that sliding matching structure 15 is engaged.It specifically can refer to described above, no longer repeated herein.
In addition, in the present embodiment, the angle of the first assembled rigid unit, the main part of the second assembled rigid unit and connecting portion can be
90 ° or non-90 degree, so, the angle between main part and connecting portion are different, can be assemblied into the assembly of a variety of different shape structures
Based on monomer and assembling schematic diagram when structure, Figure 16 and Figure 17 are main part and connecting portion angle is acute angle, Figure 19 and Figure 20
Monomer and assembling schematic diagram when body portion and connecting portion angle are obtuse angle.
In addition, in the present embodiment, for the ease of dismounting each first assembled rigid unit, the connecting portion of the first assembled rigid unit and master
Groove 26 is provided between body portion, elastic deformation is produced so as to connecting portion, splicing structure also includes being detachably connected in groove
Brace rod 28, when brace rod 28 is supported in the first assembled rigid unit, can prevent connecting portion produce elastic deformation.So set
Put, when needing to connect each first assembled rigid unit, connecting portion can be made to produce elastic deformation, to make connecting portion be connected.Even
After being connected together, brace rod 28 is arranged in the first assembled rigid unit, prevents connecting portion from producing elastic deformation and causing to connect
Failure.
Further, for the ease of installing brace rod, it is provided with the first assembled rigid unit and is used for brace rod described in holding
Buckle 27.The set-up mode of second assembled rigid unit may be referred to the first assembled rigid unit, repeat no more herein.
The foregoing description of the disclosed embodiments, professional and technical personnel in the field are enable to realize or new using this practicality
Type.A variety of modifications to these embodiments will be apparent for those skilled in the art, determine herein
The General Principle of justice can be realized in other embodiments in the case where not departing from 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 scope consistent with features of novelty.
Claims (16)
1. a kind of splicing structure, it is characterised 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 6n sides shape, wherein, n is positive integer;The connecting portion is arranged on respectively
Formula structure is connected as one on each side of the individual main part and with the main part;The connection on each side
Portion is connected by sliding pair with adjacent each first assembled rigid unit, between the first assembled rigid unit described in any two
The sliding pair includes the first chute being disposed therein on the connecting portion of first assembled rigid unit and is arranged on another
It is on the connecting portion of one first assembled rigid unit and can be connected with first chute and along first chute slide
Dynamic sliding matching structure, the glide direction of the sliding pair are identical with the bearing of trend on the side where it;The main part
For curved structure or bending structure, the connecting portion of multiple first assembled rigid units is linked together by the sliding pair
When, it is overall that curved overall or bending can be formed.
2. splicing structure as claimed in claim 1, it is characterised in that the main part is shaped as arcuate structure.
3. splicing structure as claimed in claim 1, it is characterised in that arbitrary neighborhood in same first assembled rigid unit
In two connecting portions, one of them be provided with first chute, another be provided with the sliding matching structure.
4. splicing structure as claimed in claim 3, it is characterised in that the sliding matching structure is the second chute, described
The notch of one chute and second chute towards on the contrary, and first chute and the second chute can be intermeshed.
5. splicing structure as claimed in claim 4, it is characterised in that first chute is inserted into second chute
Sidewall thickness is less than or equal to the width of second chute, and second chute is inserted into the side thickness in first chute
Width of the degree less than or equal to first chute.
6. splicing structure as claimed in claim 4, it is characterised in that first chute and second chute, along described
The one or both ends of glide direction are provided with and slip into mouth structure.
7. splicing structure as claimed in claim 1, it is characterised in that the sliding matching structure is can extend into described the
" L " type slide fastener in one chute, the side wall of " L " the type slide fastener are inserted into first chute.
8. splicing structure as claimed in claim 1, it is characterised in that the width of rebate of first chute be less than groove sidewall it
Between width, the sliding matching structure is that can extend into the T-shape slide fastener in first chute.
9. splicing structure as claimed in claim 1, it is characterised in that the connecting portion of first assembled rigid unit and its main part
Between angle be 90 ° or non-90 degree.
10. the splicing structure as described in claim any one of 1-9, it is characterised in that also including the second assembled rigid unit, described
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 connected as one with main part
Formula structure;The connecting portion of second assembled rigid unit can be connected with the connecting portion of first assembled rigid unit.
11. splicing structure as claimed in claim 10, it is characterised in that the connecting portion of second assembled rigid unit is can be with
The sliding matching structure that first chute of first assembled rigid unit is engaged or the cunning with first assembled rigid unit
The chute that movable fit structure is engaged.
12. splicing structure as claimed in claim 10, it is characterised in that the connecting portion of second assembled rigid unit and its main body
Angle between portion is 90 ° or non-90 degree.
13. splicing structure as claimed in claim 1, it is characterised in that the connecting portion on the side is also filled by pin to be tied
Structure is connected with adjacent each first assembled rigid unit, the pin dress knot between the first assembled rigid unit described in any two
The first pin-and-hole that structure includes being disposed therein on the connecting portion of first assembled rigid unit, be arranged on another described the
It is on the connecting portion of one assembled rigid unit and can the second positive pin-and-hole relative with first pin-and-hole, described first can be inserted into
The bearing of trend of the bearing pin of pin-and-hole and second pin-and-hole, first pin-and-hole and second pin-and-hole and the side where it
Bearing of trend it is identical.
14. splicing structure as claimed in claim 10, it is characterised in that the connection on the side of second assembled rigid unit
Portion is also connected by pin assembling structure with adjacent each first assembled rigid unit or second assembled rigid unit, the pin dress
The first pin-and-hole that structure includes being disposed therein on a connecting portion, be arranged on another described connecting portion and can be with
The second relatively positive pin-and-hole of first pin-and-hole, the bearing pin that first pin-and-hole and second pin-and-hole can be inserted into, it is described
The bearing of trend of first pin-and-hole and second pin-and-hole is identical with the bearing of trend on the side where it.
15. splicing structure as claimed in claim 1, it is characterised in that ditch is provided between the connecting portion and the main part
Groove, elastic deformation is produced so as to the connecting portion, the splicing structure also includes the branch being detachably connected in assembled rigid unit
Muscle is supportted, when the brace rod is supported in the assembled rigid unit, the connecting portion can be prevented to produce elastic deformation.
16. splicing structure as claimed in claim 15, it is characterised in that the assembled rigid unit, which is provided with, is used for branch described in holding
Support the buckle of muscle.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107355671A (en) * | 2017-09-05 | 2017-11-17 | 邓雪松 | A kind of splicing structure |
WO2019047815A1 (en) * | 2017-09-05 | 2019-03-14 | 邓雪松 | Assembly structure |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107355671A (en) * | 2017-09-05 | 2017-11-17 | 邓雪松 | A kind of splicing structure |
WO2019047815A1 (en) * | 2017-09-05 | 2019-03-14 | 邓雪松 | Assembly structure |
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