CN209397770U - Wallboard crack resistence piece structure - Google Patents

Abstract

The utility model relates to a kind of wallboard crack resistence piece structures.Piece structure includes the first splicing component and the second splicing component of splicing, and the stitching portion of the first splicing component is equipped with the first indent, and the stitching portion of the second splicing component is equipped with the second indent being docked and connected with the first indent；The bottom wall of the bottom wall of first indent and the second indent is equipped with the roughness for having multiple pits or multiple protrusions, grid cloth is layed in the roughness of the first indent and in the roughness of the second indent, Flexible anti-crack mortar is placed in the first indent and the second indent, and grid coverage cloth.Wallboard crack resistence piece structure provided by the utility model, grid cloth is equipped in the roughness of the first indent and the second indent and filled with Flexible anti-crack mortar layer, because being equipped with roughness, therefore the bond degree of Flexible anti-crack mortar layer can be improved, to prevent stitching portion from cracking, compared to traditional technology, structure is simple, at low cost, easy to operate and have a wide range of application.

Description

Wallboard crack resistence piece structure

Technical field

The utility model relates to the wallboard interconnection technique fields in assembled architecture, more particularly to a kind of wallboard crack resistence Piece structure.

Background technique

In assembled architecture, often there is crack in the junction between wallboard and wallboard, while seriously affecting beauty, after Phase repairing is also relatively complicated, and due effect is also unable to reach after repairing.

Connection structure between a kind of existing wallboard and cast-in-place wallboard is provided with load-bearing stress interconnected in wallboard Element increases the coupling stiffness between wallboard with this.

But the load bearing element is not only at high cost, and operate in use it is also complex, in addition, the load bearing element is only It can be used for a case where wallboard is cast-in-place wallboard, therefore its application range to be also restrained.

Utility model content

Based on this, it is necessary to for the connection structure between existing wallboard and cast-in-place wallboard, use load-bearing force-summing element The limited problem of at high cost, complicated for operation and application range, providing one kind, cost is relatively low, construction is simple, the stronger wall of versatility Plate crack resistence piece structure.

A kind of wallboard crack resistence piece structure, including the first splicing component and for splicing component splicing with described first Second splicing component, the first splicing component are equipped with the first indent in the stitching portion with the second splicing component, and described the Two splicing components are equipped with the second indent, first indent and second indent in the stitching portion with the first splicing component It is docked and connected；The bottom wall of the bottom wall of first indent and second indent be equipped with have multiple pits or it is multiple protrusion Roughness, the piece structure further include grid cloth and Flexible anti-crack mortar layer, and the grid cloth is layed in first indent The roughness on and the roughness of second indent on, the Flexible anti-crack mortar is placed on first indent In second indent, and cover the grid cloth.

Above-mentioned wallboard crack resistence piece structure, after the first splicing component and the second splicing component are attached, first It is equipped with grid cloth in the roughness of indent and the second indent and filled with Flexible anti-crack mortar layer, is split with preventing stitching portion from generating Line, and because the bottom wall of the first indent and the second indent has roughness, therefore Flexible anti-crack mortar layer and the first indent can be improved With the bond degree of the second indent.The wallboard crack resistence piece structure of the utility model uses load-bearing stress member compared to traditional Part reinforces coupling stiffness to prevent stitching portion from having the mode of crackle, and structure is simple, at low cost and easy to operate, and can be applied to each In the mode of kind wallboard connection, therefore have wide range of applications.

The pit and/or the protrusion are spatially triangular shaped in one of the embodiments,.

The pit and/or the raised spatially rectangular pyramid shape in one of the embodiments,.

First indent extends along the longitudinally of the first splicing component in one of the embodiments, described Second indent extends along the longitudinally of the second splicing component.

The grid cloth is adhesion type grid cloth in one of the embodiments,.

In one of the embodiments, between the first splicing component and the second splicing component in a parallel manner Connection.

The stitching portion of the first splicing component is located at its end, the second splicing structure in one of the embodiments, The stitching portion of part is located at its end, and the first splicing component is identical with the second splicing component thickness, first indent With the deep equality of second indent, first indent is provided with the first splicing symmetrical two sides of component ends, institute It states the second indent and is provided with the second symmetrical two sides of splicing component ends.

In one of the embodiments, between the first splicing component and the second splicing component in a manner of intersection Connection.

The stitching portion of the first splicing component is located at its end in one of the embodiments, the second splicing component Stitching portion is arranged far from its end, and first indent is provided with the first splicing symmetrical two sides of component ends, and described the Two indents are provided with the side far from its end of the second splicing component；Or the stitching portion position of the first splicing component In its end, the stitching portion of the second splicing component is located at its end, and first indent is provided with the first splicing structure The two sides of part end symmetric, second indent is provided on the end and stitching portion inside of the second splicing component, described The depth of second indent of the depth of first indent of first splicing component side and the second splicing component ends It spends equal.

Detailed description of the invention

Fig. 1 is the partial structure diagram of the wallboard crack resistence piece structure in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram of the wallboard crack resistence piece structure in an embodiment of the present invention；

Fig. 3 is the structural schematic diagram of the site operation of the wallboard crack resistence piece structure of an embodiment of the present invention；

Fig. 4 is the structural schematic diagram of the shaping jig of an embodiment of the present invention.

Specific embodiment

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The preferred embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms It realizes, however it is not limited to embodiment described herein.On the contrary, purpose of providing these embodiments is makes to the utility model The understanding of disclosure is more thorough and comprehensive.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein includes Any and all combinations of one or more related listed items.

When describing positional relationship, unless otherwise defined, when an element is regarded as at another element "upper", energy Intermediary element directly in other elements or also may be present.It can also understand, when element is regarded as in two element " they Between " when, it can be the only one between two elements, or one or more intermediary elements also may be present.

Using " comprising " described herein, " having " and "comprising", unless having used specific restriction Term, such as " only ", " by ... form " etc., it otherwise can also add another component.Unless refer on the contrary, otherwise singular shape The term of formula may include plural form, and can not be interpreted as its quantity is one.

In addition, the ratio that attached drawing is not 1:1 is drawn, and the relative size of each element is in the accompanying drawings only illustratively to draw System, and not necessarily drawn according to actual proportions.

As shown in Figure 1, the wallboard crack resistence piece structure 100 in an embodiment of the present invention, including the first splicing structure Part 10 and for first splicing component 10 splice second splicing component 20.

First splicing component 10 is equipped with the first indent 11, the second splicing component 20 in the stitching portion with the second splicing component 20 It is equipped with the second indent 21 in the stitching portion with the first splicing component 10, the first indent 11 is docked and connected with the second indent 21.

The bottom wall of first indent 11 and the second indent 21 is equipped with the roughness 30 for having multiple pits or multiple protrusions, spells Crack structure 100 further includes grid cloth 40 and Flexible anti-crack mortar layer 50 (see Fig. 2), and grid cloth 40 is layed in the thick of the first indent 11 In the roughness 30 of rough portion 30 and the second indent 21, Flexible anti-crack mortar layer 50 is placed in the first indent 11 and the second indent 21, And grid coverage cloth 40.

In this way, after the first splicing component 10 and the second splicing component 20 are spliced, in the first indent 11 and the second pressure It is equipped with grid cloth 40 in the roughness 30 of slot 21 and is filled with Flexible anti-crack mortar layer 50, to prevent stitching portion from cracking, And because the bottom wall of the first indent 11 and the second indent 21 has roughness 30, therefore Flexible anti-crack mortar layer 50 and first can be improved The bond degree of indent 11 and the second indent 21.The wallboard crack resistence piece structure 100 of the utility model, compared to traditional use Load-bearing force-summing element reinforces coupling stiffness to prevent stitching portion from having the mode of crackle, and structure is simple, at low cost and easy to operate, and It can be applied in the mode of various wallboard connections, therefore have wide range of applications.

In some embodiments, the first indent 11 extends along the longitudinally of the first splicing component 10,21 edge of the second indent The longitudinally of second splicing component 20 extends.

Referring to Fig. 1, in some embodiments, pit and/or protrusion are spatially triangular shaped.In this way, first The bottom wall of indent 11 and the second indent 21 is more coarse, is conducive to improve Flexible anti-crack mortar layer 50 and the first indent 11 and second The bond degree of indent 21.

It is specific low, pit and/or raised spatially rectangular pyramid shape.Rectangular pyramid can be with Flexible anti-crack mortar there are four face Bonding, therefore interior in a limited space can further increase bond degree.

In some embodiments, grid cloth 40 is adhesion type grid cloth.Use process is convenient, and subsequent filling flexible cracking resistance Grid cloth 40 is not easily shifted when mortar, improves construction efficiency and guarantees piece effect.

In some embodiments, it is connected in a parallel manner between the first splicing component 10 and the second splicing component 20.

Specifically, the stitching portion of the first splicing component 10 is located at its end, and the stitching portion of the second splicing component 20 is located at it End, the first splicing component 10 is identical with the thickness of the second splicing component 20, the depth phase of the first indent 11 and the second indent 21 Deng the first indent 11 is provided with the two sides of 10 end symmetric of the first splicing component, and the second indent 21 is provided with the second splicing component The two sides of 20 end symmetrics.

In further embodiments, it is connected in a manner of intersection between the first splicing component 10 and the second splicing component 20.

Specific in an embodiment, the stitching portion of the first splicing component 10 is located at its end, the spelling of the second splicing component 20 It meets place to be arranged far from its end, the first indent 11 is provided with the two sides of 10 end symmetric of the first splicing component, and the second indent 21 is opened It is located at the side far from its end of the second splicing component 20.

It should be pointed out that the stitching portion of the second splicing component 20 is arranged far from its end, the position of stitching portion can be the The centre of two splicing components 2 or the position of other non-ends, this is not restricted.

Specific in another embodiment, the stitching portion of the first splicing component 10 is located at its end, the second splicing component 20 Stitching portion is located at its end, and the first indent 11 is provided with the two sides of 10 end of the first splicing component, and the second indent 21 is provided with On the end of two splicing components 20 and the inside of stitching portion, the depth and second of the first indent 11 of the first splicing 10 side of component Splice the deep equality of the second indent 21 of 20 end of component.

Based on above-mentioned wallboard crack resistence piece structure 100, the utility model also provides a kind of wallboard crack resistence piece structure Construction method, wallboard crack resistence piece structure 100 include first splicing component 10 and be used for and first splicing component 10 splice Second splicing component 20, construction method the following steps are included:

S10: will be in the roughness 30 of 11 bottom wall of the first indent for being layed in the first splicing component 10 of grid cloth 40 and In the roughness 30 of 21 bottom wall of the second indent of two splicing components 20；Wherein, the first indent 11 is set to the first splicing component 10 In the stitching portion with the second splicing component 20, the second indent 21 is set to the second splicing component 20 and is splicing component 10 with first Stitching portion, the first indent 11 are docked and connected with the second indent 21, the roughness 30 of the first indent 11 and the second indent 21 it is coarse Portion 30 is provided with multiple pits or multiple protrusions；

S20: filling flexible anticracking grout is in the first indent 11 and the second indent 21 to form the soft of grid coverage cloth 40 Property anticracking grout layer 50.

In some embodiments, it before S10 step, further comprises the steps of:

Pre-formed first splicing component 10；Wherein, the first splicing component 10 is in the stitching portion with the second splicing component 20 With the first indent 11, the bottom wall of the first indent 11 has roughness 30, and roughness 30 has multiple pits or multiple protrusions.

It should be understood that in pre-formed first splicing component 10, the roughness 30 of the bottom wall of the first indent 11 Pre-formed therewith, in this way, can avoid post-processing, simplification of flowsheet accelerates construction efficiency.

Likewise, the second splicing component 20 or prefabricated components, construction procedure and pre-formed first splicing structure The construction procedure of part 10 is similar, and details are not described herein.

As shown in figure 3, in some embodiments, in the first splicing component 10 and/or the shaping mould of the second splicing component 20 It is settable on plate to form shaping jig 200 corresponding with the first indent 11, the second indent 21 and roughness 30.

In further embodiments, it before S10 step, further comprises the steps of:

Cast-in-place the first splicing of molding component 10；Wherein, the first splicing component 10 is in the stitching portion with the second splicing component 20 With the first indent 11, the bottom wall of the first indent 11 has roughness 30, and roughness 30 has multiple pits or multiple protrusions.

It should be understood that in cast-in-place the first splicing of molding component 10, the roughness 30 of the bottom wall of the first indent 11 Cast-in-place molding therewith, in this way, can avoid post-processing, simplification of flowsheet accelerates construction efficiency.

Likewise, the second splicing component 20 or site concrete, construction procedure and cast-in-place molding the first splicing structure The construction procedure of part 10 is similar, and details are not described herein.

In some embodiments, settable on the forming panel of the first splicing component 10 and/or the second splicing component 20 Form shaping jig 200 corresponding with the first indent 11, the second indent 21 and roughness 30.

As shown in figure 4, in a specific embodiment, the first splicing component 10 is prefabricated components, the second splicing component 20 For site concrete, connected in a parallel manner between the first splicing component 10 and the second splicing component 20.First splicing component 10 Respective end, and the thickness of the first splicing component 10 and the second splicing component 20 are respectively positioned on the stitching portion of the second splicing component 20 Spend identical, the deep equality of the first indent 11 and the second indent 21.

First it will use forming panel that the first splicing component 10 is pre-formed in factory, wherein the first indent 11 and roughness 30 take shape in the two sides of 10 end symmetric of the first splicing component.

By the first splicing component 10 transport to construction site, and it is mounted to and forms connection with the second splicing component 20 Position.

The molding die 300 that component 20 is spliced in molding second is installed in place, wherein the position of the first indent 11 and molding The position of the shaping jig 300 of the second indent of die for molding 21 should correspond to concordantly.

The casting concrete in the molding die 300 of the second splicing component 20, after being demoulded after concrete formation i.e. The second indent 21 and roughness 30 of the second splicing component 20 can be formed.S10 step and S20 step are carried out again.

The wallboard crack resistence piece structure 100 of the utility model, has the advantage that compared with prior art

(1), by first splicing component 10 and second splicing component 20 stitching portion, set respectively bottom wall have it is multiple recessed The first indent 11 and the second indent 21 of the roughness 30 of hole or multiple protrusions, are also laid in the first indent 11 and the second indent 21 Grid cloth 40 and Flexible anti-crack mortar layer 50, compared to traditional technology, structure is simple, at low cost and easy to operate, and can apply In the mode of various wallboards connection, therefore have wide range of applications；

(2), pass through setting pit in sky in 3-D triangle, or raised spatially triangular hill, the first indent 11 and second indent 21 bottom wall it is more coarse, be conducive to improve Flexible anti-crack mortar layer 50 and the first indent 11 and the second indent 21 bond degree；

(3), by it is pre-formed first splicing component 10 and/or it is pre-formed second splicing component 20 and it is cast-in-place at Type first splices component 10 and/or cast-in-place molding the second splicing component 20, to be correspondingly formed first during prefabricated and cast-in-place Indent 11, the second indent 21 and roughness 30, can avoid post-processing, and simplification of flowsheet accelerates construction efficiency.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (9)

1. a kind of wallboard crack resistence piece structure, including the first splicing component and for the with the first splicing component splicing Two splicing components, it is characterised in that:

The first splicing component is equipped with the first indent, the second splicing component in the stitching portion with the second splicing component It is equipped with the second indent in the stitching portion with the first splicing component, first indent is docked and connected with second indent；

The bottom wall of the bottom wall of first indent and second indent be equipped with have multiple pits or it is multiple protrusion it is coarse Portion, the piece structure further include grid cloth and Flexible anti-crack mortar layer, and the grid cloth is layed in the institute of first indent It states in roughness and in the roughness of second indent, the Flexible anti-crack mortar is placed on first indent and institute It states in the second indent, and covers the grid cloth.

2. wallboard crack resistence piece structure according to claim 1, which is characterized in that the pit and/or the protrusion It is spatially triangular shaped.

3. wallboard crack resistence piece structure according to claim 1, which is characterized in that the pit and/or the protrusion In handstand body rectangular pyramid shape.

4. wallboard crack resistence piece structure according to claim 1, which is characterized in that first indent is along described first The longitudinally for splicing component extends, and second indent extends along the longitudinally of the second splicing component.

5. wallboard crack resistence piece structure according to claim 1, which is characterized in that the grid cloth is adhesion type grid Cloth.

6. described in any item wallboard crack resistence piece structures according to claim 1~5, which is characterized in that first splicing It is connected in a parallel manner between component and the second splicing component.

7. wallboard crack resistence piece structure according to claim 6, which is characterized in that the splicing of the first splicing component Place is located at its end, and the stitching portion of the second splicing component is located at its end, and the first splicing component and described second are spelled Connection member thickness is identical, the deep equality of first indent and second indent, and first indent is provided with described The one splicing symmetrical two sides of component ends, second indent are provided with the second symmetrical two sides of splicing component ends.

8. described in any item wallboard crack resistence piece structures according to claim 1~5, which is characterized in that first splicing It is connected in a manner of intersection between component and the second splicing component.

9. wallboard crack resistence piece structure according to claim 8, which is characterized in that the splicing of the first splicing component Place is located at its end, and the stitching portion of the second splicing component is arranged far from its end, and first indent is provided with described first and spells The two sides of connection member end symmetric, second indent are provided with the side far from its end of the second splicing component；Or Person

The stitching portion of the first splicing component is located at its end, and the stitching portion of the second splicing component is located at its end, institute It states the first indent and is provided with the first splicing symmetrical two sides of component ends, second indent is provided with second splicing On on the inside of the end of component and stitching portion, the depth and described second of first indent of first splicing component side is spelled The deep equality of second indent of connection member end.