CN108644187A - A kind of splicing structure - Google Patents
A kind of splicing structure Download PDFInfo
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- CN108644187A CN108644187A CN201810818580.3A CN201810818580A CN108644187A CN 108644187 A CN108644187 A CN 108644187A CN 201810818580 A CN201810818580 A CN 201810818580A CN 108644187 A CN108644187 A CN 108644187A
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- interconnecting piece
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- rigid unit
- main part
- sliding
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- 238000009434 installation Methods 0.000 description 4
- 230000008602 contraction Effects 0.000 description 3
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- 239000000178 monomer Substances 0.000 description 2
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16B—DEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
- F16B1/00—Devices for securing together, or preventing relative movement between, constructional elements or machine parts
- F16B1/02—Means for securing elements of mechanisms after operation
Abstract
The invention discloses a kind of splicing structures, including multiple first assembled rigid units, each first assembled rigid unit includes main part and interconnecting piece, the contour shape of the cross section of main part is the sides the 6n shape that at least two side length of sides do not wait, main part in the axial direction on projection relative side it is parallel, n is positive integer;Interconnecting piece is arranged on each side of each main part;The interconnecting piece and the interconnecting piece of the first adjacent assembled rigid unit on each side can be slidably connected, and the glide direction of interconnecting piece is identical as the extending direction on the side where it.Splicing structure provided by the invention, assembled rigid unit realize connection and dismounting by way of being slidably matched, and after the completion of assembly, cannot remove under field conditions (factors), have higher reliability.In addition, after the completion of assembly, the Joint failure of a certain position can't influence integrally-built intensity.And this kind of splicing structure assembly process is simple, is not required to additional connector, cost is relatively low.
Description
Technical field
The present invention relates to connecting elements technical fields, more specifically to a kind of splicing structure.
Background technology
The connection type of traditional splicing structure mostly uses the modes such as bolt pair, rivet, welding, this kind of connection type construction
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 type, the construction time is long, of high cost, inefficiency, and later period maintenance cost is surprising.
Moreover, using existing connection type, globality should not ensure, small careless mistake is easy to influence 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 a technical problem that technical personnel in the field need to solve at present.
Invention content
The purpose of the present invention is to provide a kind of splicing structure, improve connectivity robustness, reduce installation part, reduce at
This.
A kind of splicing structure comprising multiple first assembled rigid units, each first assembled rigid unit include main part
And interconnecting piece, the contour shape of the cross section of the main part are the sides the 6n shape that at least two side length of sides do not wait, and it is described
Main part in the axial direction on projection relative side it is parallel, wherein n is positive integer;The interconnecting piece is arranged in the master
It is connected as one formula structure on each side in body portion and with the main part;The interconnecting piece on each side with
The interconnecting piece of adjacent first assembled rigid unit can be slidably connected, the glide direction of the interconnecting piece with its where
Extending direction on side is identical.
Preferably, in above-mentioned splicing structure, the side of the main part of first assembled rigid unit is straight flange;
Or the side of the main part of first assembled rigid unit is curl, and opposite side is parallel.
Preferably, in above-mentioned splicing structure, the company of two sides of arbitrary neighborhood in first assembled rigid unit
In socket part, one of them described interconnecting piece is the first sliding groove, another one is the sliding that can be slidably matched with the first sliding groove
Fit structure, the extending direction of the first sliding groove are identical as the extending direction of side where it.
Preferably, in above-mentioned splicing structure, the sliding matching structure is the extending direction arrangement along side where it
Second sliding slot, the notch of the first sliding groove and the second sliding slot is towards on the contrary, and the first sliding groove and second sliding slot
It can be intermeshed.
Preferably, in above-mentioned splicing structure, the sidewall thickness that the first sliding groove is inserted into the second sliding slot is small
In or equal to the second sliding slot width, the sidewall thickness that the second sliding slot is inserted into the first sliding groove is less than or waits
In the width of the first sliding groove.
Preferably, in above-mentioned splicing structure, the first sliding groove and the second sliding slot, along the one of the glide direction
End and/or both ends, which are equipped with, slides into mouth structure.
Preferably, in above-mentioned splicing structure, the second sliding slot is that can extend into " L " type in the first sliding groove
The side wall of slide fastener, " L " the type slide fastener is inserted into the first sliding groove.
Preferably, in above-mentioned splicing structure, the width of rebate of the first sliding groove is less than width between groove sidewall, described
Second sliding slot is that can extend into the T-shape slide fastener in the first sliding groove.
Preferably, in above-mentioned splicing structure, between the interconnecting piece and the main part of first assembled rigid unit
Angle be 90 °.
Preferably, in above-mentioned splicing structure, the interconnecting piece on the side also passes through the first pin assembling structure and phase
Adjacent first assembled rigid unit is connected, and the first pin assembling structure includes being disposed therein first assembled rigid unit
Interconnecting piece on the first axis pin and be arranged on the interconnecting piece of another shown first assembled rigid unit and can be with described first
The first hinged axis pin articulation piece of axis pin, the extending direction of the extending direction of first axis pin and the side where it
It is identical.
Preferably, groove is equipped in above-mentioned splicing structure, between the interconnecting piece and the main part, so as to the company
Socket part generates flexible deformation, and the splicing structure further includes the supporting rib being detachably connected in first assembled rigid unit,
When the supporting rib is supported in the groove, the interconnecting piece can be prevented to generate elastic deformation.
Preferably, in above-mentioned splicing structure, first assembled rigid unit is equipped with the card for installing the supporting rib
Button.
Preferably, further include the second assembled rigid unit in above-mentioned splicing structure, second assembled rigid unit includes main part
And interconnecting piece, the contour shape of the main part of second assembled rigid unit is polygon, the interconnecting piece of second assembled rigid unit
It is arranged on the side of second assembled rigid unit and is an integral structure;The interconnecting piece of second assembled rigid unit can be with institute
The interconnecting piece of the interconnecting piece or adjacent second assembled rigid unit of stating the first assembled rigid unit is slidably connected.
Preferably, in above-mentioned splicing structure, the interconnecting piece of second assembled rigid unit and second assembled rigid unit
Angle between main part is 90 °.
Preferably, in above-mentioned splicing structure, the interconnecting piece of second assembled rigid unit also by the second pin assembling structure with
The interconnecting piece of first assembled rigid unit or the interconnecting piece of second assembled rigid unit are connected, and the second pin assembling structure includes setting
The second axis pin on an interconnecting piece wherein is set, is arranged on another interconnecting piece and can be hinged with second axis pin
Second axis pin articulation piece, the extending direction of second axis pin are identical as the extending direction of the side where it.
In technical solution provided by the invention, the contour shape of the cross section of the first assembled rigid unit is at least two side sides
The long not equal sides 6n shape, and main part in the axial direction on projection relative side it is parallel, wherein (n=1,2,3,4,5,
6 equal natural numbers), for example, as n=1, the main part of the first assembled rigid unit is 6 side shapes, as n=2, the first assembled rigid unit
Main part is 12 side shapes.6 positioning of the main part of the first assembled rigid unit in the application are changed to by being carried out at the same time, point 3 ranks
Duan Jinhang is assembled, and difficulty substantially reduces.
The main part of first assembled rigid unit is connected with interconnecting piece, and interconnecting piece is connected on each side of main part, needs
It is noted that when the side is arbitrary one of above-mentioned 6n in shape.Interconnecting piece and adjacent first on each side
The interconnecting piece of assembled rigid unit can be slidably connected, the glide direction of interconnecting piece and the extending direction phase on the side where it
Together.
So set, above-mentioned 6n in 6n of shape in any one side all realized with other assembled rigid units on periphery
Sliding pair connects, and when connection, after the completion of the sliding pair that the extension line of glide direction intersects at a point all is slidably connected, then this is several
The free sliding degree of a sliding pair can form mutual constraint.In this way, under field conditions (factors), sliding pair will not be unlocked.And work as it
In some sliding pair Joint failure when, do not interfere with overall construction intensity.Splicing structure provided by the invention, assembly are completed
Afterwards, it to split individual assembled rigid unit, needs to use specific purpose tool, drives associated first assembled rigid unit mutual
With resultant displacement, sliding pair could be split.The main part of the first concatenation unit in the application is the wheel profile of cross section
Shape is the not equal sides the 6n shape of at least two side length of sides, and main part in the axial direction on projection relative side it is parallel,
Therefore, the length of the sliding pair of 2 the first assembled rigid units cooperation is different, and the sliding pair of the corresponding each edge of each monomer is entire
Be slidably matched the time point combined in the process, be different, have after first having, therefore, when splicing to it, positioning can headed by
The connected straight line of tail is linked to be, and the sides 6n shape, which is performed in multiple times, to be slidably matched, and greatly reduces assembled difficulty.
Description of the drawings
In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below
There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this
Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with
Obtain other attached drawings according to these attached drawings.
Fig. 1 is the first structural schematic diagram of the first assembled rigid unit in the embodiment of the present invention;
Fig. 2 is the structural schematic diagram after the first assembled rigid unit assembly in Fig. 1;
Fig. 3 is the dimensional structure diagram of the first structure of the first assembled rigid unit in the embodiment of the present invention;
Fig. 4 is the vertical view of Fig. 3;
Fig. 5 is the dimensional structure diagram after the first the structure assembly of the first assembled rigid unit in the embodiment of the present invention;
Fig. 6 is second of structural schematic diagram of the first assembled rigid unit in the embodiment of the present invention;
Fig. 7 is the structural schematic diagram after the first assembled rigid unit assembly in Fig. 6;
Fig. 8 is the structural schematic diagram of the second assembled rigid unit in the embodiment of the present invention;
Fig. 9 is the structural schematic diagram connected using axis pin after the first assembled rigid unit bending in the embodiment of the present invention;
Figure 10 is the structural schematic diagram that the first assembled rigid unit uses axis pin connection in the embodiment of the present invention;
Figure 11 is the stereogram of first assembled rigid unit the third structure in the embodiment of the present invention;
Figure 12 is the stereogram of the first assembled rigid unit yet another construction in the embodiment of the present invention.
In Fig. 1-Figure 12:
First assembled rigid unit -11, main part -12, interconnecting piece -13, the first sliding groove -14, sliding matching structure -15,
Side -16.
Specific implementation mode
Present embodiment is designed to provide a kind of splicing structure, improves connectivity robustness, reduces installation part,
Reduce cost.
Hereinafter, being illustrated to embodiment with reference to attached drawing.In addition, embodiments illustrated below is not to recorded in claim
Invention content rise any restriction effect.In addition, the full content of the composition represented by following example is not limited to as right
It is required that necessary to the solution of recorded invention.
Please refer to Fig.1-Figure 12, 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 interconnecting piece
13。
Wherein, the contour shape of the cross section of main part 12 is the sides the 6n shape that at least two side length of sides do not wait, and main
Body portion in the axial direction on projection relative side it is parallel, that is, main part is the column structure that a circumferential direction is the sides 6n shape,
Thickness can be configured according to different needs, be not specifically limited herein, at least two side of column structure of the sides the 6n shape
The length of side differ, specifically, can be all different or be configured according to different needs, and in protection domain.
The core of main part in the application is, the column structure of the sides 6n shape in the axial direction on projection relative side it is parallel,
Axis direction in the application is the short transverse of the column structure of the sides 6n shape, also is understood as, the column structure of the sides 6n shape
The direction of center line.By main part in the axial direction on the relative side of projection be provided parallel to, to ensure that first is assembled single
During assembly, all sides can be accurately positioned member, prevent the first adjacent assembled rigid unit and splice between each other
Problem on not.Parallel in the application can be regarded as in error range parallel.
Wherein, n is positive integer, for example, n can be 1, when n is 1, the contour shape of main part 12 is hexagon, works as n
When being 2, the contour shape of main part 12 is dodecagon, and when n is 3, the contour shape of main part 12 is ten octagons etc..This
The core of application be main part 12 contour shape be two opposite sides be it is parallel, when n be 1 when, main part 12 be pair
The parallel hexagon etc. in side.In practice, the length of side of main part 12 can be configured according to different needs, and protected
It protects in range.
An interconnecting piece 13 is designed on the side 16 of each main part 12, interconnecting piece 13 is integral type knot with main part 12
Structure, for example, specifically formula structure can be connected as one by modes such as injection molding, metal plate or welding.
In the interconnecting piece 13 of the two neighboring side 16 of the main part 12 of first assembled rigid unit 11, one of interconnecting piece 13
For the first sliding groove, another one is the sliding matching structure that can be slidably matched with the first sliding groove, and the extending direction of the first sliding groove
Identical as the extending direction of side where it, i.e., the side of the main part 12 of the first adjacent assembled rigid unit 11 passes through the first sliding groove
Cooperation with sliding matching structure is realized assembled.
In the present embodiment, above-mentioned the first sliding groove 14 is set there are two groove sidewall, and two groove sidewalls are arranged face-to-face, and keeps one
Determining deviation, the spacing are groove width.The bottom of two groove sidewalls is connected by the groove bottom wall of the first sliding groove 14, material is thus formed
There are two the trench structures of groove sidewall and a groove bottom wall for tool.
As is illustrated by figs. 11 and 12, it should be noted that when the first assembled rigid unit of above-mentioned any two 11 is bolted together,
It is to be connected by sliding pair, specifically slides into sliding matching structure 15 in the first sliding groove 14.The extension side of the first sliding groove 14
The extending direction of the side 16 of interconnecting piece 13 where Xiang Yuqi is identical, moreover, in order to make sliding matching structure 15 can extend into
It is slided to inside the first sliding groove 14, and along the first sliding groove 14, the top of the first sliding groove 14, side i.e. opposite with groove bottom wall are spacious
Open architecture.The development length of the first sliding groove 14 can be consistent with the development length of side 16 where it, or is less than its institute
Side 16 development length.
So set, any one side in all sides 16 of the first above-mentioned assembled rigid unit 11 is all other with periphery
Assembled rigid unit realizes sliding pair connection, when connection, by sliding into sliding matching structure 15 in the first sliding groove 14, due to cunning
Dynamic direction is identical as the direction of side 16 where sliding pair, when the extension line of glide direction intersects at the sliding pair of same point
After the completion of being all slidably connected, 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 sliding of one of sliding pair can be by the effect of contraction of other two sliding pair, in this way, three sliding pairs are in effect of contraction
Under not will produce sliding.
In this way, after the completion of each sliding pair assembly, it all can be by the effect of contraction of other two sliding pairs, in natural conditions
Under, sliding pair will not be unlocked.And when wherein some sliding pair Joint failure, other two sliding pair still can each other about
Beam.The damage of first concatenation unit 11 of part, will not influence the constraint between whole sliding pair, and then do not interfere with whole
Body structural strength.
The contour shape of the cross section of the main part 12 of the first concatenation unit 11 in the application is at least two side sides
The long sides the 6n shape not waited, therefore, the length of the sliding pair of 2 the first assembled rigid units 11 cooperation is different, and each monomer is corresponding every
The sliding pair on side is different at the time point combined in the process that is entirely slidably matched, and is had after first having, therefore, is carried out to it
When splicing, positioning can be that end to end straight line is linked to be, and the sides 6n shape, which is performed in multiple times, to be slidably matched, and greatly reduces assembled hardly possible
Degree.And for the equal sides the 6n shape of side edge length, in splicing, the time point of the sliding pair on each of which side in cooperation is identical
, that is, it needs simultaneously to position all sliding pairs, this undoubtedly increases assembled difficulty.
For 6 side shapes of foundation, specific position fixing process:First, a side parallel to each other enters cooperation, after, another
While entering back into cooperation;Again, that continues a pair of parallel side is introduced into cooperation on one side, and rear opposite side enters cooperation;It is complete to be further continued for an opposite side
At;All realize connection in final 6 sides;The difficulty that equilateral 6 side shape must position simultaneously is substantially reduced after the above processing, by face simultaneously
Connection is changed to independent line connection type.The straight line connected according to the head and the tail 17 by 3 stages, which is linked to be, has what face simultaneously positioned
As a result.The sides 6n shape, which is also divided 3 times, to be slidably matched, and greatly reduces assembled difficulty.Citing, such as:(6 positioning point 3 of 6 side shapes
A stage):1 step:One group of horizontally-arranged or tandem 6 side shape apex angle head and the tail connects into lineal layout;2 steps:It is loose between multiple parallel lines
The head and the tail for dissipating the horizontally-arranged or tandem increase tilted direction of connection connect into lineal layout;3 steps:Increase oblique line directions again between parallel lines
Apex angle oblique line directions are added to be located by connecting, increased constraint step by step makes loosely connected to reinforce being that relative securement structure is (or unordered steady
Fixing structure), when no 6 sides generate sliding constraint simultaneously, 6 side shapes integrally have fastness.
In specific embodiment, the side 16 of the main part 12 of the first above-mentioned assembled rigid unit 11 is straight flange, in this way, the master
The cross section in body portion 12 is the sides 6n shape and at least two sides, 16 length of side not equal structure, in this way, it is multiple this first it is assembled singly
Member 11 can form the structure of plane after assembly.
In practice, the side 16 of the main part 12 of first assembled rigid unit 11 can also be curl, you can to understand
It is bent that (also corresponding main part is become interconnecting piece on the basis of plane for the main part 12 of the first assembled rigid unit 11
Change, bending), still, in order to ensure the splicing between the first assembled rigid unit 11, need the projection of main part 12 in the axial direction
Relative side is parallel, in this way, can be assembled into arc surface by multiple first assembled rigid units 11, be assembled into cylindrical surface or be assembled into wave
Line face.In order to ensure the accuracy of assembled process, it is preferred that by the side of the opposite bending of main part of the first assembled rigid unit 11
It is provided parallel to, i.e. two oriented parallels, specifically, the radian of the bending of two curves is identical.To be parallel, i.e. two songs
Line is parallel, specifically, the radian of the bending of two curves is identical.Say herein be main part side be curve when, but
Be for side it is straight line also in protection domain.
In practice, the first concatenation unit 11 that can be bent side 16 is spliced into required shape, applies in difference
Scene, and in protection domain.
It should be noted that above-mentioned two adjacent interconnecting pieces 13, refer to being arranged in the same assembled rigid unit main part 12
On two adjacent sides 16 on interconnecting piece 13.In this way, 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, above-mentioned each sliding pair mutually constraining in glide direction, define it is above-mentioned each
Coplanar interior degree of freedom 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 second sliding slot, the notch direction of the first sliding groove 14 and second sliding slot
On the contrary, and the first sliding groove 14 and second sliding slot can be intermeshed, i.e. the groove sidewall of the first sliding groove 14 and second sliding slot is stretched mutually
Enter into mutual slot, moreover, the first sliding groove 14 is opposite with the opening direction of second sliding slot.
After the completion of the sliding pair assembly on adjacent side 16, due to adjacent in same first assembled rigid unit 11
The notch direction of the first sliding groove 14 and second sliding slot on two sides 16 is on the contrary, be specially:In first assembled rigid unit
Second sliding slot in one sliding slot and another first assembled rigid unit cooperatively forms a sliding pair, and the in first assembled rigid unit
Two sliding slots cooperatively form another sliding pair, the vertical freedom of the two sliding pairs with the first sliding groove in another assembled rigid unit
Degree realizes stable assembly on the contrary, in turn can be constrained each other on vertical.In this way, after completing assembled, this two slidings
Pair will form mutual constraint, and then avoid the first sliding groove 14 for constituting same sliding pair and what second sliding slot was mutually disengaged asks
Topic.
The extending direction of above-mentioned the first sliding groove 14 and second sliding slot is identical as the extending direction of side 16 where it, and
And development length is preferably lower than or equal to the development length of the side 16 where it.In this way, adjacent in the same assembled rigid unit
There are certain gaps between two sliding slots, form slide-in mouth structure.In order to facilitate the installation of, the first sliding groove 14 and second sliding slot
The both ends of extending direction be designed with above-mentioned slide-in mouth structure.
In addition, in order to improve the stability after the completion of assembly, the first sliding groove 14 is inserted into the sidewall thickness in second sliding slot
Equal with the width of second sliding slot, second sliding slot is inserted into the width phase of sidewall thickness and the first sliding groove 14 in the first sliding groove 14
Deng.So set, when the first sliding groove 14 and second sliding slot cooperate, the basis for capableing of opposite sliding both ensure that
On, fit clearance between the two is smaller, improves connective stability.
Above-mentioned the first sliding groove 14 and second sliding slot can be in 90 ° of angles, i.e. the first sliding groove 14 with 12 place plane of main part
With the depth direction of second sliding slot and the 12 perpendicular relationship of place plane of main part, in this way, each main part passes through interconnecting piece 12
After linking together, each main part 12 is generally aligned in the same plane interior.Certainly, in other embodiments, the first sliding groove 14 and second
Sliding slot is alternatively acute angle or obtuse angle with 12 place plane of main part, in this way, the interconnecting piece 13 of each first assembled rigid unit 11 is connected
When being connected together, each main part 12 can be made to be located in different planes.It (when the first splicing structure has certain thickness, is spelling
When dress approximation spherical surface, interconnecting piece and main part (for plane) angle non-90 degree;In assembled spherical surface, when main part is curved surface, connection
Portion and main part angle are 90 °)
In another embodiment of present embodiment, interconnecting piece on the side 16 of the first assembled rigid unit 11 is can
On the basis of being linked together by above-mentioned sliding pair and other first assembled rigid units 11, can also by pin assembling structure with it is adjacent
Each first assembled rigid unit 11 be connected, the pin assembling structure between the first assembled rigid unit of any two 11 include setting
Wherein the first pin hole on the interconnecting piece of first assembled rigid unit, be arranged on the interconnecting piece of another the first assembled rigid unit
And can the second positive pin hole opposite with the first pin hole, the axis pin of the first pin hole and the second pin hole, the first pin can be inserted into
The extending direction of hole and the second pin hole is identical as the extending direction of side where it.
Specifically, or the first assembled rigid unit 11 arbitrary neighborhood two sides 16 on be respectively fixed with axis pin and energy
The axis pin articulation piece of enough and axis pin clamping, as shown in Figure 10.When assembly, the pin of one in the first adjacent assembled rigid unit 11
Axis and the clamping of the axis pin articulation piece of another one, the first adjacent assembled rigid unit are hinged, and are completed assembled.
For example, above-mentioned pin assembling structure can be equipped on some side of the first assembled rigid unit 11, on remaining five sides
Equipped with sliding pair.Pin assembling structure is not needing special tool(s) easy disassembly.Compare slide construction, reduces part machine
Tool performance increases the convenience of dismounting.
In addition, it is necessary to illustrate, in the present embodiment, the main part 12 of the first assembled rigid unit 11 is alternatively foldable set
Meter, for example, the main part 12 of the first assembled rigid unit 11 is to be made up of two parts that axis pin connects, as shown in Figure 9.
In the present embodiment, the first sliding groove 14 and second sliding slot be arranged it is recessed on the upper face and lower face of interconnecting piece 13
Slot.In this way, when each first assembled rigid unit 11 is stitched together, formation be an entirety larger area tablet knot
Structure can be adapted for every field.
Certainly, in other embodiments, interconnecting piece 13 can also be raised in main part 12 or be arranged less than main part 12, when
When interconnecting piece 13 is raised in the setting of main part 12, the depth of the first sliding groove 14 and second sliding slot can be made to be more than the thickness of main part 12
Degree, makes cooperation area bigger, and then improve the reliability of cooperation.
In other embodiments, the specific setting of above-mentioned the first sliding groove 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 second sliding slot can be configured to " L " the type slide fastener being inserted into the first sliding groove 14, " L " type is slided
The side wall of button is inserted into the first sliding groove 14.
For another example, the width of rebate of the first sliding groove 14 could be provided as width between less than two groove sidewalls, second sliding slot
To can extend into the T-shape slide fastener in the first sliding groove 14.
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 more horn of plenty of splicing structure provided in this embodiment.
Splicing structure provided in this embodiment, further includes the second assembled rigid unit, and the second assembled rigid unit includes main part and interconnecting piece.
Moreover, the contour shape of the main part of the second assembled rigid unit is polygon, such as triangle, trapezoidal, diamond shape etc..It needs
It is noted that each edge of the polygonal profile of the main part of the second assembled rigid unit can be not only straight flange, or edge
The side that curve extends, the extending direction of the interconnecting piece of the second assembled rigid unit can be consistent with the shape on the side of main part, certainly
Can not also be consistent, concrete shape can be specifically arranged according to actual conditions.In practice, the second assembled rigid unit can be the first spelling
What dress unit 11 was formed after bending, as shown in Figure 8.
The interconnecting piece of second assembled rigid unit is arranged on the side of the main part of the second assembled rigid unit and is connected as with main part
The interconnecting piece of integral structure, the second assembled rigid unit can be connected with the interconnecting piece 13 of the first assembled rigid unit 11.
In this way, by increasing by the second assembled rigid unit on splicing structure, the whole outer edge shape of splicing structure can be made
Shape generates variation, enriches the configuration design of splicing structure.
Equally, the interconnecting piece of above-mentioned second assembled rigid unit is similar to the interconnecting piece 13 of the first assembled rigid unit 11, or
Cunning that can be with the 14 matched sliding matching structure of the first sliding groove of the first assembled rigid unit 11 or with the first assembled rigid unit 11
15 matched sliding slot of movable fit structure.Above description specifically is can refer to, is no longer repeated herein.Wherein, it each second spells
It can be also connected with each other between dress unit.
In addition, in the present embodiment, for the ease of dismounting each first assembled rigid unit, the interconnecting piece of the first assembled rigid unit and master
It is equipped with groove between body portion, generates flexible deformation so as to interconnecting piece, splicing structure further includes being detachably connected to the first assembly
Supporting rib on unit when supporting rib supports in the trench, can prevent interconnecting piece from generating elastic deformation.So set, working as
When needing to connect each first assembled rigid unit, interconnecting piece can be made to generate elastic deformation, to make interconnecting piece be connected.It is connected to one
After rising, supporting rib is mounted in the first assembled rigid unit, prevents interconnecting piece from generating elastic deformation and leading to Joint failure.
Further, supporting rib falls off and is easily installed supporting rib in order to prevent, is equipped with and uses in the first assembled rigid unit
In the buckle of holding supporting rib.
The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention.
Various modifications to these embodiments will be apparent to those skilled in the art, as defined herein
General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention
It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one
The widest range caused.
Claims (15)
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 interconnecting piece, the contour shape of the cross section of the main part are the sides the 6n shape that at least two side length of sides do not wait, and
And the main part in the axial direction on projection relative side it is parallel, wherein n is positive integer;The interconnecting piece setting exists
It is connected as one formula structure on each side of the main part and with the main part;The company on each side
The interconnecting piece of socket part and adjacent first assembled rigid unit can be slidably connected, the glide direction of the interconnecting piece and its
Extending direction on the side at place is identical.
2. splicing structure according to claim 1, which is characterized in that the side of the main part of first assembled rigid unit
While being straight flange;
Or the side of the main part of first assembled rigid unit is curl, and opposite side is parallel.
3. splicing structure as described in claim 1, which is characterized in that two institutes of arbitrary neighborhood in first assembled rigid unit
In the interconnecting piece for stating side, one of them described interconnecting piece is the first sliding groove, another one is that can be slided with the first sliding groove
The sliding matching structure of cooperation, the extending direction of the first sliding groove are identical as the extending direction of side where it.
4. splicing structure as claimed in claim 3, which is characterized in that the sliding matching structure is prolonging along side where it
The second sliding slot of direction arrangement is stretched, the notch of the first sliding groove and the second sliding slot is towards on the contrary, and the first sliding groove
It can be intermeshed with second sliding slot.
5. splicing structure as claimed in claim 4, which is characterized in that the first sliding groove is inserted into the second sliding slot
Sidewall thickness is less than or equal to the width of the second sliding slot, and the second sliding slot is inserted into the side thickness in the first sliding groove
Width of the degree less than or equal to the first sliding groove.
6. splicing structure as claimed in claim 4, which is characterized in that the first sliding groove and the second sliding slot, along described
One end and/or both ends of glide direction, which are equipped with, slides into mouth structure.
7. splicing structure as claimed in claim 3, which is characterized in that the second sliding slot is that can extend into slide in described first
The side wall of " L " type slide fastener in slot, " L " the type slide fastener is inserted into the first sliding groove.
8. splicing structure as claimed in claim 3, which is characterized in that the width of rebate of the first sliding groove be less than groove sidewall it
Between width, the second sliding slot is that can extend into the T-shape slide fastener in the first sliding groove.
9. splicing structure as described in claim 1, which is characterized in that the interconnecting piece of first assembled rigid unit with it is described
Angle between main part is 90 °.
10. splicing structure as described in claim 1, which is characterized in that the interconnecting piece on the side also passes through first
Pin assembling structure is connected with adjacent first assembled rigid unit, and the first pin assembling structure includes being disposed therein described in one
The first axis pin on the interconnecting piece of first assembled rigid unit and it is arranged on the interconnecting piece of another shown first assembled rigid unit and energy
Enough and the first hinged axis pin articulation piece of first axis pin, the extending direction of first axis pin and the side where it
The extending direction on side is identical.
11. splicing structure as described in claim 1, which is characterized in that be equipped with ditch between the interconnecting piece and the main part
Slot, so as to first assembled rigid unit generate flexible deformation, the splicing structure further includes being detachably connected to described first
Supporting rib in assembled rigid unit when the supporting rib is supported in the groove, can prevent the interconnecting piece from generating elasticity
Deformation.
12. splicing structure as claimed in claim 11, which is characterized in that first assembled rigid unit is equipped with for installing
State the buckle of supporting rib.
13. such as claim 1-12 any one of them splicing structures, which is characterized in that further include the second assembled rigid unit, it is described
Second assembled rigid unit includes main part and interconnecting piece, and the contour shape of the main part of second assembled rigid unit is polygon, institute
The interconnecting piece for stating the second assembled rigid unit is arranged on the side of second assembled rigid unit and is an integral structure;Described second spells
The interconnecting piece for filling unit can be with the interconnecting piece of first assembled rigid unit or the interconnecting piece of adjacent second assembled rigid unit
It is slidably connected.
14. splicing structure as claimed in claim 13, which is characterized in that the interconnecting piece of second assembled rigid unit and described the
Angle between the main part of two assembled rigid units is 90 °.
15. splicing structure as claimed in claim 10, which is characterized in that the interconnecting piece of second assembled rigid unit also passes through
Two pin assembling structures are connected with the interconnecting piece of the interconnecting piece of first assembled rigid unit or second assembled rigid unit, second pin
Assembling structure includes the second axis pin being disposed therein on an interconnecting piece, is arranged on another interconnecting piece and can be with described the
The second hinged axis pin articulation piece of two axis pins, the extension side of the extending direction of second axis pin and the side where it
To identical.
Priority Applications (5)
Application Number | Priority Date | Filing Date | Title |
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CN201810818580.3A CN108644187B (en) | 2018-07-24 | 2018-07-24 | Assembling structure |
US17/260,329 US20210293261A1 (en) | 2018-07-24 | 2018-09-04 | Assembly structure |
EP18927549.8A EP3828459A4 (en) | 2018-07-24 | 2018-09-04 | Assembly structure |
JP2021525340A JP2021529920A (en) | 2018-07-24 | 2018-09-04 | Assembly configuration |
PCT/CN2018/103908 WO2020019410A1 (en) | 2018-07-24 | 2018-09-04 | Assembly structure |
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CN201810818580.3A CN108644187B (en) | 2018-07-24 | 2018-07-24 | Assembling structure |
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CN108644187A true CN108644187A (en) | 2018-10-12 |
CN108644187B CN108644187B (en) | 2020-07-28 |
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CN201810818580.3A Active CN108644187B (en) | 2018-07-24 | 2018-07-24 | Assembling structure |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2019047814A1 (en) * | 2017-09-05 | 2019-03-14 | 邓雪松 | Assembled structure |
CN109882478A (en) * | 2019-04-11 | 2019-06-14 | 邓旭林 | A kind of splicing construction |
WO2020207511A3 (en) * | 2019-04-11 | 2020-12-10 | 邓旭林 | Assembly structure |
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CN203939955U (en) * | 2014-05-29 | 2014-11-12 | 浙江工业大学 | A kind of Combined cam |
CN105569194A (en) * | 2016-02-25 | 2016-05-11 | 金胜昔 | Module splicing structure |
CN205782524U (en) * | 2016-06-03 | 2016-12-07 | 安徽世林照明股份有限公司 | A kind of LED of sliceable folding |
US9667010B1 (en) * | 2015-12-07 | 2017-05-30 | Taiwan Long Hawn Enterprise Co. | Carbon brush holder |
CN107355671A (en) * | 2017-09-05 | 2017-11-17 | 邓雪松 | A kind of splicing structure |
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CN203939955U (en) * | 2014-05-29 | 2014-11-12 | 浙江工业大学 | A kind of Combined cam |
US9667010B1 (en) * | 2015-12-07 | 2017-05-30 | Taiwan Long Hawn Enterprise Co. | Carbon brush holder |
CN105569194A (en) * | 2016-02-25 | 2016-05-11 | 金胜昔 | Module splicing structure |
CN205782524U (en) * | 2016-06-03 | 2016-12-07 | 安徽世林照明股份有限公司 | A kind of LED of sliceable folding |
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WO2019047814A1 (en) * | 2017-09-05 | 2019-03-14 | 邓雪松 | Assembled structure |
CN109882478A (en) * | 2019-04-11 | 2019-06-14 | 邓旭林 | A kind of splicing construction |
WO2020207511A3 (en) * | 2019-04-11 | 2020-12-10 | 邓旭林 | Assembly structure |
JP2022527034A (en) * | 2019-04-11 | 2022-05-27 | シュイリン ドン | Splice structure |
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CN108644187B (en) | 2020-07-28 |
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