CN213837475U - Shingle nail concatenation subassembly - Google Patents

Abstract

The utility model discloses a shingle nail concatenation subassembly, including all being linear type installed part, caulking strip, the installed part has this somatic part, two connections that are located two relative limits of shingle nail between the gap and connects in this somatic part both sides and respectively with the relative joining of plates groove joint complex inlay portion on the limit, connect the first end at this somatic part and laminate the portion of pasting at two shingle nail backs, the second end of this somatic part is equipped with the inserting groove that extends along installed part length direction, the caulking strip has with inserting groove grafting complex grafting portion, connect the first end of grafting portion and seal the portion of sealing in the gap between the relative limit of two shingle nails. The beneficial effects of the utility model reside in that, adopt the components of a whole that can function independently grafting complex mode to solve the problem that a body structure exists, reduced the degree of difficulty of grafting equipment to comparatively reliable overall structure has.

Description

Shingle nail concatenation subassembly

Technical Field

The utility model relates to a shingle nail concatenation subassembly mainly uses the concatenation technical field at modularization shingle nail.

Background

Traditional wall is through cutting the shingle nail, then uses wet process operation to install, and the construction quality relatively relies on staff's technique and experience, and the construction period is also longer, and in addition, the installation degree of difficulty of evagination metal lines (caulking strip) is very big.

Aiming at the defects, the following technical means are adopted at present: adopt the integral type structure of installation department and caulking part, installation department passes through joint complex mode installation concatenation with adjacent shingle nail, and the caulking part seals the gap between with adjacent shingle nail, can realize the modularization installation operation of wall through this kind of scheme, has reduced the construction degree of difficulty, and the wall quality after the concatenation equipment is also relatively better simultaneously.

However, this solution still has drawbacks: firstly, the caulking part is exposed on the front surface of the background wall and needs secondary processing (such as anodizing or wire drawing), while the mounting part is hidden and does not need the secondary processing, but the caulking part and the mounting part are of an integral structure, so the secondary processing needs to be integrally carried out, the cost is relatively high, and in addition, if the external caulking part is required to be replaced, the wall panel needs to be detached and spliced again for mounting, so the operation is relatively troublesome, and the cost is increased.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a shingle nail concatenation subassembly, adopt the components of a whole that can function independently grafting complex mode to solve the problem that a body structure exists, reduced the degree of difficulty of grafting equipment to have comparatively reliable overall structure.

The utility model discloses a realize through following technical scheme.

The utility model provides a shingle nail concatenation subassembly, is including all being linear type installed part, caulking strip, the installed part has the body portion that is located the relative limit of two shingles between gap, two connections are in this body portion both sides and respectively with the relative joining of plates groove joint complex inlay portion on the limit of two shingles, connect the first end of this body portion and laminate the portion of pasting at two shingles backs, the second end of this body portion is equipped with the inserting groove that extends along installed part length direction, caulking strip have with inserting groove grafting complex grafting portion, connect the first end of grafting portion and seal the edge sealing portion in the relative limit of two shingles gap.

The utility model discloses a set up installed part and caulking strip components of a whole that can function independently to assemble both into wholly through grafting complex mode, can carry out secondary operation processing such as anodic oxidation or wire drawing with the caulking strip alone, and need not to carry out the same processing to the installed part, not only reduced the processing cost, if need change the caulking strip of old caulking strip or the different styles of replacement in addition, then only need with the caulking strip demolish the change can, compare prior art and wholly demolish more portably.

As a further improvement, the both sides of grafting portion grafting in the inserting groove part have a plurality ofly extend and the first protruding structure that sets up side by side along installed part length direction, two cell walls of inserting groove have the second protruding structure that extends along installed part length direction side by side of an adjacent notch or a plurality of adjacent notches, when relative displacement takes place along the grafting direction with the inserting groove grafting portion and inserting groove the protruding structure of second can be extruded by the first protruding structure of process in proper order, the second end of grafting portion with when the tank bottom of inserting groove offsets the protruding structure of second is crisscross with first protruding structure.

As a further improvement of the utility model, the width of the insertion groove is gradually reduced along the direction from the notch to the bottom of the groove.

As a further improvement of the utility model, first protruding structure has the first domatic of the first end of portion of pegging graft, is close to the second of grafting portion second end domatic, connects first curved surface between them, the protruding structure of second has the third that is close to the inserting groove tank bottom domatic, is close to the fourth domatic of inserting groove notch, connects second curved surface between them, first domatic has roughly the same gradient with the fourth domatic, the second is domatic and has roughly the same gradient with the third.

As a further improvement of the present invention, the first slope is smaller than the second slope.

As a further improvement, the tank bottom of inserting groove and two cell wall junctions all have the sunk structure that extends along installed part length direction, the first protruding structure that grafting portion both sides are closest to first end cooperates with the sunk structure joint that corresponds.

As a further improvement of the present invention, the recessed structure has a gap between a portion corresponding to the groove bottom and the first end of the insertion portion.

As a further improvement of the utility model, the clamping and embedding part is wrapped with a flexible part matched with the shape of the one layer.

As a further improvement of the present invention, the flexible member has a first portion of the flexible member, a second portion of the flexible member, and a third portion of the flexible member, and covers the three end faces of the clamping and embedding portion facing to the two groove walls and the groove bottom of the splicing groove, the first portion of the flexible member is completely attached to the groove wall of the splicing groove, and the second portion of the flexible member is attached to the groove wall of the splicing groove.

As a further improvement of the present invention, the flexible member further has a flexible member fourth portion extending to a gap between the opposite edges of the two wall panels, the flexible member fourth portion covers at least the body portion has one side corresponding to the insertion groove portion and is attached to the opposite edge of the corresponding wall panel.

The utility model has the advantages that:

the utility model discloses with the installed part, the components of a whole that can function independently setting of caulking strip, and assemble through grafting complex mode, realized the technical purpose that the caulking strip can secondary treatment alone, the protruding structure of second that the first protruding structure that the caulking strip set up and inserting groove set up can reduce the grafting complex operation degree of difficulty, and overall structure after the grafting is comparatively firm, in addition, the recessed structure then can alleviate the stress that produces when grafting portion second portion inserts, thereby prevent the inelastic irreversible deformation that the mechanism nature destruction that grafting portion second portion appears or cause easily.

Drawings

The preferred embodiments of the present invention will hereinafter be described in detail to facilitate an understanding of the objects and advantages of the invention, with reference to the accompanying drawings, in which:

FIG. 1 is a schematic sectional view of a wall panel splicing assembly shown disassembled;

FIG. 2 is a schematic cross-sectional view of a shingle splicing assembly being spliced to two adjacent shingles;

FIG. 3 is an enlarged partial schematic view of FIG. 2;

FIG. 4 is a front view of a Mondrian wall;

fig. 5 is an installation sequence diagram of fig. 4.

Detailed Description

The invention is explained in more detail below with reference to the drawings and exemplary embodiments.

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like as referred to or as may be referred to in this specification are defined with respect to the configuration shown in the drawings, and the terms "inner" and "outer" refer to directions toward and away from the geometric center of a particular component and are relative terms, and thus may be changed accordingly depending on the position and the state of use of the particular component. Therefore, these and other directional terms should not be construed as limiting terms.

Example 1:

referring to fig. 1-3, a shingle splicing assembly includes a mounting member 1 and a caulking strip 2, the mounting member 1 and the caulking strip 2 are both in a linear structure, the mounting member 1 has a body portion 11, two snap-fit portions 12 and a wall-attaching portion 13, and the mounting member 1 is used to connect two adjacent spliced shingles 3.

The section of the body 11 is slender with a certain width and extends along the thickness direction of the wall panel 3, the body 11 is located in the gap between two adjacent wall panels 3, one end of the body 11 facing the back of the wall panel 3 is defined as a first end 1-a, one end facing the front of the wall panel 3 is defined as a second end 1-B, the first end of the body 11 is integrally connected with the middle of the wall pasting part 13, the wall pasting part 13 is in a flat structure and is divided into two parts by the body 11, which are respectively designated as a first side part 131 and a second side part 132, the first side part 131 and the second side part 132 are respectively pasted on the back of two adjacent spliced wall panels 3, the second side part 132 is provided with a groove 133 of a fastener, the fastener can fixedly connect the wall panel 3 with the wall body, the end of the first side part 131 bends towards the direction far away from the back of the wall panel 3, the included angle that makes this tip and shingle nail 3's the back have certain to be the acute angle, and the tip of should buckling can play certain space cushioning effect, can release the space that this included angle was stored when shingle nail 3 and wall body fixed connection to avoid pasting wall portion 13 and receive the extrusion wearing and tearing of transition.

The two embedded parts 12 are integrally connected to two sides of the body part 11, and the structure is symmetrical about the body part 11, specifically, the embedded parts 12 are connected to two sides of the body part 11 adjacent to the second end 1-B, the opposite sides 31 of the wall panels 3 are provided with splicing grooves 32 extending along the length direction of the opposite sides 31, the two embedded parts 12 are respectively matched with the splicing grooves 32 of two adjacent wall panels 3 in a clamping way, the splicing grooves 32 are provided with a first groove wall 321 close to the front surface of the wall panel 3, a second groove wall 322 close to the back surface of the wall panel 3 and a groove bottom 323, the embedded parts 12 are provided with an embedded part first end surface 121 facing the first groove wall 321, an embedded part second end surface 122 facing the second groove wall 322 and an embedded part third end surface 123 facing the groove bottom, wherein the embedded part first end surface 121 is flush with the second end 1-B of the body part 11, even if the body part 11 and the two embedded parts 12 form a T-shaped structure, the structural strength of the installation part 1 along the width direction of the gap is enhanced, a gap is formed between the third end face 123 of the clamping and embedding part and the groove bottom 323 of the splicing groove 32, therefore, the clamping and embedding part 12 has a certain assembling gap when being in clamping and matching with the splicing groove 32, so that the situation that the aging and the even fracture are aggravated by the extrusion of the groove bottom 323 when the installation part 1 is used for a long time and has the problems of aging and deformation and the like is avoided, and the second end face 122 of the clamping and embedding part is a bending face after being bent for multiple times.

The clamping part 12 is wrapped with a layer of flexible member matched with the shape of the clamping part, and preferably made of rubber. Based on the structure of the engaging portion 12, the flexible member 4 has a first flexible member portion 41, a second flexible member portion 42, and a third flexible member portion 43 that are integrally connected to each other, and the three portions respectively cover the first engaging portion end 121, the second engaging portion end 122, and the third engaging portion end 123 of the engaging portion 12, and since the first engaging portion end 121 is a flat surface, the first flexible member portion 41 is in frictional contact with the first groove wall 321 as a whole, and the second engaging portion end 122 is a bent surface, the second flexible member portion 42 is in frictional contact with the second groove wall 322, and the rest portions have a gap with the second groove wall 322. Generally, the first end surface 121 of the clamping portion and the first portion 41 of the flexible member play a role in mainly preventing the clamping portion 12 from relatively moving with the splicing groove 32 along the length direction thereof, and then the first end surface 121 of the clamping portion and the structural feature of the second end 1-B of the body portion 11 are flush with each other, so that the clamping portion has a good clamping matching performance, the second end surface 122 of the clamping portion and the second portion 42 of the flexible member play a role in partially preventing the clamping portion 12 from relatively moving with the splicing groove 32, and more play a role in supporting the clamping portion 12, so that the force of the first portion 41 of the flexible member attaching to the first groove wall 321 is improved, and in addition, since the second flexible member is only partially in frictional contact with the second groove wall 322, damping can be reduced when the clamping portion 12 is clamped into the clamping groove, and the assembly difficulty is simplified.

The second end of the main body 11 is provided with an insertion groove 113 extending along the length direction of the mounting piece 1, the insertion groove 113 extends from the notch to the groove bottom 1132 along the length direction of the section of the main body 11, the caulking strip 2 is provided with an insertion part 21 and a sealing part 22, the section of the insertion part 21 is in a slender structure, one end of the insertion part facing the back surface of the wall panel 3 is defined as a first end 2-A, one end of the insertion part facing the front surface of the wall panel 3 is defined as a second end 2-B, the sealing part 22 is in a flat structure, the middle part of the sealing part is integrally connected with the second end 2-B of the insertion part 21, the two caulking strips 2 in a T-shaped structure are formed, and the sealing part 22 is used for sealing the gap between the opposite edges 31 of the two wall panels 3.

The insertion part 21 includes two parts, one part is inserted and matched with the insertion groove 113 to be recorded as an insertion part second part 212, the other part is exposed outside the insertion groove 113 to be recorded as an insertion part first part 211, two sides of the insertion part second part 212 are provided with a plurality of first protruding structures S extending along the length direction of the mounting part 1 and arranged side by side, two groove walls 1131 of the insertion groove 113 are provided with one or a plurality of second protruding structures P extending along the length direction of the mounting part 1 and arranged next to the groove opening, and two second protruding structures P are arranged side by side along the position next to the groove opening on the groove wall of the insertion groove 113 in the present embodiment.

When the inserting part 21 and the inserting groove 113 are relatively displaced along the inserting direction, the second protrusion structures P may be pressed by the first protrusion structures S passing through in sequence, where the relative displacement is a process of inserting the inserting part 21 into the inserting groove 113 along the inserting direction. When inserting grafting portion 21, two first protruding structures S of the adjacent grafting portion 21 first end in grafting portion second portion 212 both sides contact with two second protruding structures P of adjacent notch at first, first protruding structure S extrudees second protruding structure P along the side direction, because notch position is far away from the tank bottom position and is compared other positions more easily and appear warping under the extrusion, thereby be located the interval grow between two second protruding structures P, the groove width of notch position is increased promptly, then improved the smooth degree that grafting portion second portion 212 inserted inserting grafting groove 113. It is worth noting that certain deformation can also occur to the first protruding structure S and the second protruding structure P in the extrusion process, and the thickness of the second part 212 of the insertion part is relatively narrow, so that the rigidity of the first protruding structure S integrated with the first protruding structure S is stronger, and the deformation degree of the first protruding structure S is smaller than that of the second protruding structure P, which is beneficial to the insertion of the insertion part 21, so that the caulking strip 2 can be made of a material with stronger rigidity than that of the installation part 1, so as to increase the deformation difference between the first protruding structure S and the second protruding structure P, and further improve the smoothness of insertion.

With the depth of the second part 212 inserted into the insertion groove 113 increasing, the first protrusion structures S on both sides of the second part 212 sequentially pass through the second protrusion structures P and exert a squeezing action on the second protrusion structures P, so that the groove width of the insertion groove 113 is intermittently increased and restored. Of course, when the second end of the insertion portion 21 abuts against the bottom of the insertion groove 113, that is, when the insertion portion 21 is completely inserted into the insertion groove 113, the second protrusion structure P and the first protrusion structure S are staggered and not extruded, and the insertion groove 113 is in a normal state and maintains a tight insertion fit with the second portion 212 of the insertion portion.

Further, the groove width of the insertion groove 113 is gradually reduced along the direction from the groove opening to the groove bottom, i.e. the insertion part second part 212 is more and more tightly matched with the insertion of the insertion groove 113 along with the insertion process, so as to improve the connection strength between the installation part 1 and the caulking strip 2, if there is no first protruding structure S and second protruding structure P, the damping during insertion is very large, not only the operation difficulty of the insertion fit is improved, even the second end of the insertion part 21 can not be abutted to the groove bottom of the insertion groove 113, but also the phenomenon that the insertion part 21 is broken off can be easily caused in the insertion process. Therefore, on the premise of providing the first protrusion structure S and the second protrusion structure P, the solution of gradually reducing the groove width of the insertion groove 113 can be implemented.

The first protrusion structure S has three continuous surfaces, i.e., a first slope surface S1 near the first end of the insertion portion 21, a second slope surface S2 near the second end of the insertion portion 21, and a first curved surface S3 connecting the two, wherein the first slope surface S1 and the second slope surface S2 may have a certain curvature. Correspondingly, the second protrusion structure P has three continuous surfaces, namely a third slope surface P1 close to the bottom of the insertion groove 113, a fourth slope surface P2 close to the notch of the insertion groove 113, and a second curved surface P3 connecting the third slope surface P1 and the fourth slope surface P2, wherein the third slope surface P1 and the fourth slope surface P2 may also have a certain curvature. In fact, the first and second convex structures S, P are structurally both centrosymmetric, so the first and fourth slope surfaces S1, P2 have substantially the same inclination, and the second and third slope surfaces S2, P1 have substantially the same inclination.

In addition, the inclination of the first slope surface S1 is smaller than that of the second slope surface S2, when the second portion 212 of the inserting part is inserted into the inserting groove 113, the first slope surface S1 and the fourth slope surface P2 are relatively displaced until the first curved surface S3 and the second curved surface P3 are pressed, and the inclination of the first slope surface S1 and the fourth slope surface P2 is smaller, so that the resistance during insertion is smaller. On the contrary, when the second portion 212 of the insertion part is separated from the insertion groove 113, the second slope surface S2 and the third slope surface P1 are relatively displaced, and the inclination of the second slope surface S2 and the third slope surface P1 is relatively large, so that the caulking strip 2 is not easily separated from the mounting piece 1 in the non-manual operation of the insertion part 21.

The intersection of the groove bottom 1132 of the insertion groove 113 and the two groove walls 1131 is provided with a recessed structure Q extending along the length direction of the mounting part 1, the cross section of the recessed structure Q is a circular arc line and has a certain accommodating space, and therefore, the two sides of the insertion part 21 are in clamping fit with the first protruding structures S closest to the first end and the corresponding recessed structures Q. Combining first protruding structure S, second protruding structure P, body portion 11 takes place elastic deformation when grafting portion second portion 212 inserts, and the increase of groove width intermittent type nature, finally the cooperation of pegging graft completely resets after both are connected inseparabler, difficult not hard up drops, recessed structure Q then can alleviate the stress that grafting portion second portion 212 produced when inserting to the mechanical destruction that prevents grafting portion second portion 212 appearance or the inelasticity irreversible deformation that causes easily. A gap is formed between the part of the concave structure Q corresponding to the groove bottom and the first end 2-A of the inserting part 21, and particularly, the first end of the inserting part 21 is of a plane structure, so that the concave structure Q and the second end can be absorbed due to processing errors, deformation caused by expansion with heat and contraction with cold, deformation stress during inserting and the like, and the wall panel 3 is prevented from arching and deforming.

The main body 11 is divided into two parts, the part with the insertion groove 113 is marked as a first main body part 111, the part extending from the first main body part 111 to the first end 1-A of the main body 11 is marked as a second main body part 112, the width of the first main body part 111 is greater than that of the second main body part 112, therefore, when the second insertion part 212 is inserted into the insertion groove 113, the first main body part 111 and the insertion groove 113 are intermittently deformed, and the deformation of the second main body part 112 is very small, therefore, the wall pasting part 13 connected with the second main body part will not be displaced relative to the back surfaces of the two wall panels 3, and the local stability of the structure is improved. In addition, the flexible piece also has a flexible piece fourth part 44 which extends to the gap between the opposite edges 31 of the two wall panels 3, the flexible piece fourth part 44 covers the body part first part 111 and is attached to the corresponding opposite edge 31 of the wall panel 3, and the protection effect on the body part 11 can be achieved, so that the mounting piece 1 has elastic buffering performance between the gaps of the two adjacent wall panels 3.

Example 2:

referring to fig. 4, the moraxella wall includes a plurality of wall panels a, a plurality of linear X-direction splicing assemblies M, and a plurality of linear Y-direction splicing assemblies N, wherein the wall panels a have a length and a width of any size, and a front color thereof is any single color. A plurality of shingle nail A bond to be rectangular plate-like total wall, and two are adjacent shingle nail A has along the splice groove that extends relative limit length direction relative to the limit, X is to splice component M Y to splice component n respectively with the splice groove joint cooperation on the relative limit of two adjacent shingle nail A.

The X-direction splicing assembly M/Y-direction splicing assembly N is composed of one or more X-direction splicing assemblies M/Y-direction splicing assemblies N, and two end parts of the X-direction splicing assemblies M/Y-direction splicing assemblies N are intersected with the edge of the main wall body or are intersected with the Y-direction splicing assemblies/X-direction splicing assemblies M in a T shape. For the partition of the X-direction splicing assembly M/Y-direction splicing assembly N, the shorter one is partitioned by the longer one when the X-direction splicing assembly M/Y-direction splicing assembly N is intersected, namely, any two X-direction splicing assemblies M and Y-direction splicing assemblies N are intersected, the X-direction splicing assembly M/Y-direction splicing assembly N with the shorter length and the Y-direction splicing assembly N/X-direction splicing assembly M with the longer length are partitioned into two X-direction splicing assemblies M/Y-direction splicing assemblies N at the intersection, and the partitioned end parts of the two X-direction splicing assemblies M/Y-direction splicing assemblies N are respectively intersected with the Y-direction splicing assembly N/X-direction splicing assembly MT in an MT shape.

Under the partition scheme of the X-direction splicing general piece M/Y-direction splicing general piece N, the integrity of the longer X-direction splicing general piece M/Y-direction splicing general piece N can be kept as much as possible.

In the present embodiment, the X-direction splicing assemblies M/Y-direction splicing assemblies n are all the wall panel a splicing assemblies of embodiment 1.

Example 3:

a method for installing a Mondrian background wall of an embodiment 2 comprises the following steps:

(S1) determining the partition position according to the length from each X-direction splicing assembly M, Y to the splicing assembly N of the Mondrian background wall, and cutting the linear type mounting pieces and the caulking strips into X-direction splicing assemblies M/Y-direction splicing assemblies N;

(2) taking an X-direction splicing assembly M/Y-direction splicing assembly N formed by a single X-direction splicing assembly M/Y-direction splicing assembly N as a reference, and clamping and splicing the wall panel A and the Y-direction splicing assembly/X-direction splicing assembly M which are positioned at two sides by one end of the X-direction splicing assembly M/Y-direction splicing assembly N along the length direction of the X-direction splicing assembly M/Y-direction splicing assembly N;

(3) and (4) clamping and splicing the rest wall panels A, X to the splicing assembly M/Y to the splicing assembly n in a diffusion mode, and finally splicing and assembling the wall panels into the Mondrian background wall.

Example 4:

referring to fig. 5, the installation order is according to reference numeral 1-reference numeral 23.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that: the technical solutions described in the foregoing embodiments can be modified, or some technical features can be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a shingle nail concatenation subassembly, a serial communication port, including all being linear type installed part, caulking strip, the installed part has the body portion that is located the relative gap between the limit of two shingles nails, two connect this body portion both sides and respectively with the relative side of two shingles splice groove joint complex inlay card portion, connect the first end of this body portion and laminate the portion of pasting at two shingle nail backs, the second end of this body portion is equipped with the inserting groove that extends along installed part length direction, caulking strip have with inserting groove grafting complex grafting portion, connect the first end of grafting portion and seal the edge sealing portion in the relative gap between the limit of two shingles nails.

2. A shingle assembly according to claim 1 wherein the insert has a plurality of first projections extending along the length of the mounting member and arranged side by side on opposite sides of the inner portion of the slot, and wherein two walls of the slot have one or more second projections extending along the length of the mounting member adjacent to the slot, the second projections being adapted to be compressed by the first projections passing in sequence when the insert and slot are displaced relative to each other in the direction of insertion, and the second projections being staggered when the second end of the insert abuts the slot base of the slot.

3. A shingle assembly according to claim 2, wherein the slot width of the slot decreases in a slot to slot direction.

4. A shingle assembly according to claim 2, wherein the first projection arrangement has a first ramp surface adjacent the first end of the spigot portion, a second ramp surface adjacent the second end of the spigot portion, a first curved surface connecting the first and second ramp surfaces, the second projection arrangement has a third ramp surface adjacent the base of the slot, a fourth ramp surface adjacent the slot opening, a second curved surface connecting the first and second ramp surfaces, the first and fourth ramp surfaces having substantially the same inclination, the second and third ramp surfaces having substantially the same inclination.

5. A shingle splicing assembly as defined in claim 4, wherein said first ramp surface has a lesser inclination than said second ramp surface.

6. A shingle assembly according to claim 2 wherein the intersection of the base of the slot and the walls of the slot each have a recess extending along the length of the mounting element, the first projections on either side of the spigot closest to the first end snap-fit into corresponding recesses.

7. A shingle assembly according to claim 6 wherein the recess has a gap between the portion of the groove base and the first end of the spigot portion.

8. A shingle assembly as defined in claim 1 wherein the clip portion is wrapped with a flexible member matching its shape.

9. The shingle splicing assembly of claim 8, wherein the flexible member has a first portion, a second portion and a third portion, and covers three end surfaces of the snap portion facing the two walls and the bottom of the splice slot, respectively, the first portion of the flexible member being attached to all of the walls of the splice slot and the second portion of the flexible member being attached to the walls of the splice slot.

10. A shingle assembly as defined in claim 9 wherein said flexible member further comprises a fourth portion of the flexible member extending into the gap between the opposed edges of the two shingles, said fourth portion of the flexible member covering at least the side of said body portion corresponding to the portion of the receptacle and abutting the corresponding opposed edges of the shingles.

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