CN214034487U - Component for shaping internal and external corners of wall - Google Patents

Abstract

The utility model relates to a component for shaping internal and external corners of a wall, which comprises a shaping unit, wherein the shaping unit is connected with corner splicing pieces, each corner splicing piece comprises an external corner splicing group and an internal corner splicing group, the external corner splicing group is coated at the corner of the external corner, each external corner splicing group comprises a first splicing piece and a second splicing piece, the first splicing piece is spliced with one end of the second splicing piece, and the other ends of the first splicing piece and the second splicing piece are respectively connected with the shaping unit; the reentrant corner concatenation group cladding is at reentrant corner, and reentrant corner concatenation group includes third concatenation piece and fourth concatenation piece, and third concatenation piece and fourth concatenation piece one end splice mutually, and the third concatenation piece and the fourth concatenation piece other end are connected with the design unit respectively. This application has the effect that the compactness of increase design component laying in the corner, improvement are to the precision of negative and positive angle parcel.

Description

Component for shaping internal and external corners of wall

Technical Field

The application relates to the field of shaping components, in particular to a component for shaping internal and external corners of a wall body.

Background

The internal corner and the external corner are one of building structures, the internal corner refers to a recessed wall corner, such as an included angle between a top surface and a peripheral wall, and the external corner refers to a protruded wall corner, such as an included angle formed by two walls at a turning part of a walkway. If the wall surface internal and external corners have large errors, the wall surface internal and external corners can be seen at a glance, the attractiveness of home decoration is affected, unsmooth installation and placement of cabinets, furniture and the like can be caused, and space waste is caused.

In order to reduce the error of the internal and external corners, the internal and external corners are generally made to have smaller error by means of the internal and external corner shaping components in the construction process of the internal and external corners. Referring to fig. 1, most of the existing internal and external corner shaping member shaping units 1 are integrally formed sectional materials with L-shaped sections, and because the lengths of the existing internal and external corner shaping members are difficult to match with the height of a wall body, a plurality of sections of internal and external corner shaping members are required to be matched when the same wall corner is constructed, and the existing matching process is that the end parts of the adjacent internal and external corner shaping members are aligned and then coating is coated on the internal and external corner shaping members through observation of constructors.

In view of the above-mentioned related technologies, but in the corner of the internal corner and the external corner, the constructor is required to cut off the shaping member at the construction site, so that the two shaping members are spliced at the corner.

SUMMERY OF THE UTILITY MODEL

In order to increase the compactness of stereotyping the component and laying in the corner, improve the precision to negative and positive angle parcel, this application provides a component that is used for wall body negative and positive angle to stereotype.

The application provides a component for shaping of wall body negative and positive angle adopts following technical scheme:

a component for shaping internal and external corners of a wall body comprises a shaping unit, wherein the shaping unit is connected with corner splicing pieces, each corner splicing piece comprises an external corner splicing group and an internal corner splicing group, the external corner splicing groups are coated at the corners of the external corners, each external corner splicing group comprises a first splicing piece and a second splicing piece, the first splicing pieces are spliced with one ends of the second splicing pieces, and the other ends of the first splicing pieces and the second splicing pieces are respectively connected with the shaping unit; the reentrant corner concatenation group cladding is at reentrant corner, and reentrant corner concatenation group includes third concatenation piece and fourth concatenation piece, and third concatenation piece and fourth concatenation piece one end splice mutually, and the third concatenation piece and the fourth concatenation piece other end are connected with the design unit respectively.

By adopting the technical scheme, when the internal corner and the external corner are coated, the first splicing piece and the second splicing piece are spliced and then coated on the corner of the external corner, and then the shaping unit is arranged on the straight and extended external corner; when the cladding reentrant corner, third splice and fourth splice concatenation cladding are on the corner of reentrant corner, then the setting of design unit is on straight reentrant corner that extends, and the parcel is at the corner splice of reentrant corner for the accessory that has prefabricated, consequently need not the scene and cuts, consequently not only increases the closeness that the design component laid at the corner, increases the precision of answering to the reentrant corner parcel in addition, and is better to the cladding effect of reentrant corner.

Optionally, the first splicing member and the second splicing member both include two perpendicular splicing surfaces, the end edge of one splicing surface of the first splicing member is a first oblique edge, the end edge of the other splicing surface of the first splicing member is a first splicing edge, the first splicing edge is perpendicular to the intersecting straight line of the two splicing surfaces, the end edge of one splicing surface of the second splicing member is a second oblique edge, the end edge of the other splicing surface of the second splicing member is a second splicing edge, and the second splicing edge is perpendicular to the intersecting straight line of the two splicing surfaces;

the third splicing piece and the fourth splicing piece both comprise two vertical splicing surfaces, the end edge of one splicing surface of the third splicing piece is a third bevel edge, the end edge of the other splicing surface of the third splicing piece is a third splicing edge, the third splicing edge is perpendicular to the intersecting straight line of the two splicing surfaces, the end edge of one splicing surface of the fourth splicing piece is a fourth bevel edge, the end edge of the other splicing surface of the fourth splicing piece is a fourth splicing edge, and the fourth splicing edge is perpendicular to the intersecting straight line of the two splicing surfaces.

Through adopting above-mentioned technical scheme, when setting up negative and positive angle typical forms, at first set up the angle splice at negative angle or positive angle, make first hypotenuse conflict second hypotenuse, first concatenation limit conflict second concatenation limit, and with two angle splices cladding at the positive angle, third hypotenuse conflict fourth hypotenuse, second concatenation limit conflict fourth concatenation limit, and with two angle splices cladding at the negative angle, then when fixing the unit of finalizing the design on negative angle or the straight edge of positive angle, and make the unit of finalizing the design be connected with the angle splice. The internal and external corners are all-round protected and wrapped.

Optionally, the included angle between the first oblique edge and the intersecting straight line of the second oblique edge and the two splicing surfaces is 45 degrees, and the included angle between the third oblique edge and the intersecting straight line of the fourth oblique edge and the two splicing surfaces is 45 degrees.

Through adopting above-mentioned technical scheme, first hypotenuse, second hypotenuse, third hypotenuse and fourth hypotenuse are 45 degrees with the contained angle between the crossing straight line of two concatenation faces respectively, and when first splice and second splice when the width is equal, external corner concatenation group and internal corner concatenation group are neatest and pleasing to the eye.

Optionally, the end surfaces of the first splicing edge and the second splicing edge are inclined slopes.

Through adopting above-mentioned technical scheme, when first concatenation limit and second concatenation limit were contradicted, the domatic counterbalance of slope is tight, makes first splice and the combination of second splice inseparabler, reduces the gap.

Optionally, the end of the first splicing piece far away from the first bevel edge, the end of the second splicing piece far away from the second bevel edge, the end of the third splicing piece far away from the third bevel edge, and the end of the fourth splicing piece far away from the fourth bevel edge are both provided with protruding joint buckles, the circular center of the end part of the shaping unit forms a socket, the joint buckles and the socket shape are adaptive, and the joint buckles are connected with the notches in an inserting mode.

Through adopting above-mentioned technical scheme, after fixing the angle splice, when fixed design unit, the joint is detained and is connected with the breach closely concatenation, reduces the gap between design unit and the angle splice.

Optionally, at least one row of round holes has all been seted up on design unit two sides, follows set up a plurality of breachs on the both sides edge on the design unit length extending direction, design unit both sides breach is on same water flat line to the straight line that links to each other between two breachs all is located the same position of round hole.

Through adopting above-mentioned technical scheme, when setting up the length of design unit according to the length of wall, cut out the design unit according to the line between two breachs, consequently make the tip edge after the design unit downcuts more neat. And the end part of the cut shaping unit is always provided with a circular arc-shaped notch, so that the clamping buckle is conveniently clamped.

Optionally, the first splicing member is provided with a splicing surface with a first bevel edge, the second splicing member is provided with a splicing surface with a second bevel edge, the third splicing member is provided with a splicing surface with a third bevel edge, and the fourth splicing member is provided with a fourth bevel edge.

By adopting the technical scheme, when the first splicing piece and the second splicing piece are fixed on the external corner, the third splicing piece and the fourth splicing piece are fixed on the internal corner, and the gauze is fixed in the mortar, so that the splicing between the first splicing piece and the second splicing piece and between the third connecting piece and the fourth connecting piece is more stable, and meanwhile, the connection between the first splicing piece and the second splicing piece and the connection between the third connecting piece and the fourth connecting piece are tighter.

Optionally, the two splicing surfaces of the corner splicing piece are provided with round holes.

By adopting the technical scheme, the corner splicing pieces can be filled with mortar through the round holes, so that the corner splicing pieces are fixed more firmly.

Optionally, a column of square holes is arranged between two columns of round holes of the shaping unit, and each square hole is located between two adjacent rows of round holes.

By adopting the technical scheme, the contact area of the shaping unit and mortar is larger, so that the shaping unit is fixed more firmly.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the corner splicing pieces wrapped at the corners of the internal and external corners are prefabricated fittings, so that on-site shearing is not needed, and the shaping unit is arranged below the external corner splicing group and the internal corner splicing group, so that the compactness of the shaping member laid at the corners is increased, the precision of wrapping the internal and external corners is improved, and the coating effect on the internal and external corners is better;

2. after the corner splicing pieces are fixed, when the shaping unit is fixed, the clamping buckles are tightly spliced and connected with the notches, and gaps between the shaping unit and the corner splicing pieces are reduced;

3. when setting up the length of design unit according to the length of wall, cut out the design unit according to the line between two breachs, consequently make the tip edge after the design unit downcuts more neat to design unit tip after tailorring has convex breach all the time, makes things convenient for the joint to detain.

Drawings

FIG. 1 is a schematic diagram of a related art architecture of the present application;

FIG. 2 is a schematic view of the overall structure of the present application in which male and female corner shaping members are disposed on male and female corners of a wall;

FIG. 3 is an exploded view of the male corner splice set and the modular unit connection of the present application;

fig. 4 is an exploded view of the connection of the reentrant corner splicing group and the styling unit in the present application.

Description of reference numerals: 1. a shaping unit; 11. a notch; 2. a circular hole; 3. a square hole; 4. an interface; 5. an external corner splicing group; 51. a first splice; 52. a second splice; 53. abutting the end; 54. a connecting end; 55. a first beveled edge; 56. a first splicing edge; 57. a second beveled edge; 58. a second spliced edge; 6. a reentrant corner splicing group; 61. a third splice member; 62. a fourth splice; 63. a third beveled edge; 64. a third spliced edge; 65. a fourth beveled edge; 66. a fourth spliced edge; 7. a clamping buckle; 8. a gauze.

Detailed Description

The present application is described in further detail below with reference to figures 2-4.

The embodiment of the application discloses a component for shaping internal and external corners of a wall body. Referring to fig. 2, the internal and external corner shaping component comprises a shaping unit 1, wherein the surface of the shaping unit 1 is rough and is in a strip shape, the shaping unit 1 comprises two perpendicular abutting surfaces, two rows of round holes 2 are arranged on each abutting surface, a row of square holes 3 are arranged between the two rows of round holes 2, and each square hole 3 is located between two adjacent rows of round holes 2.

Referring to fig. 2 and 3, notches 11 are formed in two side edges of the shaping unit 1 extending in the length direction, the notches 11 in two sides of the shaping unit 1 are on the same horizontal line, and straight lines connected between the two notches 11 are located at the same position of the circular hole 2. Therefore, when the shaping unit 1 is fixed on the internal and external corners, the shaping unit 1 can be disconnected along the connecting line between the two notches 11 according to the length required by the shaping unit 1, so that the fracture of the shaping unit 1 is parallel and level, the gap between the shaping unit 1 and the corner splicing piece after splicing is reduced, and the two ends of the shaping unit 1 are provided with the circular arc-shaped inserting ports 4.

The internal and external corner shaping component further comprises corner splicing pieces, and the corner splicing pieces are arranged at the corners of the internal and external corners. The corner splicing piece comprises an external corner splicing group 5 and an internal corner splicing group 6, wherein the external corner splicing group 5 is used at the external corner, and the internal corner splicing group 6 is used at the internal corner.

Referring to fig. 2 and 3, the external corner splicing group 5 includes a first splicing member 51 and a second splicing member 52, and the first splicing member 51 and the second splicing member 52 both include two perpendicular splicing surfaces, each including a fastening end 53 and a connecting end 54. The edge of the abutting end 53 of one splicing surface of the first splicing member 51 is inclined and is a first inclined edge 55, the included angle between the first inclined edge 55 and the intersection line of the two splicing surfaces is 45 degrees, and the edge of the abutting end 53 of the other splicing surface of the first splicing member 51 is a first splicing edge 56. The edge of the abutting end 53 of one of the splicing surfaces of the second splicing member 52 is inclined and forms a second inclined edge 57, the included angle between the straight lines where the second inclined edge 57 and the two splicing surfaces are connected is 45 degrees, and the edge of the abutting end 53 of the other splicing surface of the second splicing member 52 is a second splicing edge 58. The ends of the first inclined edge 55 and the second inclined edge 57, which are far away from the intersection line of the two splicing surfaces, are far away from the connecting end 54, and the end surfaces of the first splicing edge 56 and the second splicing edge 58 are inclined slopes, so that when the first splicing element 51 and the second splicing element 52 are spliced together, the seam is tighter.

When the first splicing member 51 and the second splicing member 52 are spliced together, the end edges of the first splicing member 51 and the second splicing member 52 are correspondingly abutted, the first splicing edge 56 is abutted against the second splicing edge 58, and the first inclined edge 55 is abutted against the second inclined edge 57. Therefore, the external corner splicing group 5 completely wraps the external corner of the wall body, and the seam of the connecting position is reduced.

Referring to fig. 2 and 4, the inside corner splicing group 6 includes a third splicing member 61 and a fourth splicing member 62, and the third splicing member 61 and the fourth splicing member 62 both include two perpendicular splicing surfaces, both including the abutting end 53 and the connecting end 54. The edge of the abutting end 53 of one splicing surface of the third splicing member 61 is inclined and is a third inclined edge 63, the included angle between the third inclined edge 63 and the intersection line of the two splicing surfaces is 45 degrees, and the edge of the abutting end 53 of the other splicing surface of the third splicing member 61 is a third splicing edge 64. The edge of the abutting end 53 of one of the splicing surfaces of the fourth splicing member 62 is inclined and forms a third inclined edge 63, the included angle between the straight lines of the third inclined edge 63 and the two splicing surfaces is 45 degrees, and the edge of the abutting end 53 of the other splicing surface of the fourth splicing member 62 is a fourth splicing edge 66. The ends of the third oblique edge 63 and the fourth oblique edge 65, which are far away from the intersection line of the two splicing surfaces, are far away from the connecting end 54, and the end surfaces of the third splicing edge 64 and the fourth splicing edge 66 are inclined slopes, so that when the third splicing member 61 and the fourth splicing member 62 are spliced together, the seam is tighter.

Referring to fig. 3 and 4, the edge of the corner splicing piece connecting end 54 is provided with a convex clamping buckle 7, the shape of the clamping buckle 7 is the same as that of the insertion port 4, and the clamping buckle 7 is clamped with the insertion port 4, so that when the inside and outside corners are wrapped, the corner splicing piece is fixed at the corner of the inside and outside corners through mortar, and then the end part of the shaping unit 1 is abutted against one end of the corner splicing piece, which is far away from the bevel edge, so that the clamping buckle 7 is spliced with the insertion port 4. Thus making the connection of the styling unit 1 and the corner splice tight and the seam inconspicuous.

Referring to fig. 2, the gauze 8 is arranged on the splicing surfaces of the external corner splicing group 5 and the internal corner splicing group 6, which are provided with the bevel edges, and when the corner splicers are fixed, the gauze 8 is fixed in mortar, so that the corner splicers are firmer, and meanwhile, the splicing positions of the corner splicers are firmer.

The implementation principle of the member for shaping the internal and external corners of the wall body in the embodiment of the application is as follows: firstly, the length of the shaping unit 1 is determined according to the length of the internal and external corners, the shaping unit 1 is disconnected according to the connecting line between the two notches 11 on the shaping unit 1, and the redundant length is removed.

When the external corner of the wall is coated, the corner connecting piece is fixed firstly, mortar is smeared at the corner of the external corner, the first splicing piece 51 and the second splicing piece 52 are fixed at two sides of the corner of the external corner respectively, the first splicing edge 56 is abutted against the second splicing edge 58, the first bevel edge 55 is abutted against the second bevel edge 57, the gauze is fixed in the mortar at the corner, and the round on the corner connecting piece is filled and leveled by using the mortar.

When the internal corner of the wall is coated, firstly, mortar is plastered on the corner of the internal corner, the third splicing piece 61 and the fourth splicing piece 62 are respectively fixed on two sides of the corner of the external corner, the third splicing edge 64 is tightly abutted against the fourth splicing edge 66, the third bevel edge 63 is abutted against the fourth bevel edge 65, the gauze is fixed in the mortar at the corner, and the circular hole 2 on the corner splicing piece is filled with the mortar.

Fixing the shaping unit 1 on the straight extending section of the internal and external corners, laying mortar on the internal and external corners, covering the shaping unit 1 on the mortar, clamping the clamping buckle 7 with the inserting port 4, filling the round hole 2 and the square hole 3 on the shaping unit 1 with the mortar, and flattening the shaping unit 1.

Fixing the shaping unit 1 on the straight extending section of the internal and external corners, laying mortar on the internal and external corners, covering the shaping unit 1 on the mortar, clamping the clamping buckle 7 with the inserting port 4, filling the round hole 2 and the square hole 3 on the shaping unit 1 with the mortar, and flattening the shaping unit 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. A component for the shaping of the internal and external corners of a wall body comprises a shaping unit (1), and is characterized in that: the corner splicing pieces are connected to the shaping unit (1), each corner splicing piece comprises an external corner splicing group (5) and an internal corner splicing group (6), the external corner splicing group (5) is coated at the corner of an external corner, each external corner splicing group (5) comprises a first splicing piece (51) and a second splicing piece (52), the first splicing pieces (51) are spliced with one ends of the second splicing pieces (52), and the other ends of the first splicing pieces (51) and the second splicing pieces (52) are respectively connected with the shaping unit (1); reentrant corner concatenation group (6) cladding is at reentrant corner, and reentrant corner concatenation group (6) includes third concatenation piece (61) and fourth concatenation piece (62), and third concatenation piece (61) and fourth concatenation piece (62) one end splice mutually, and the third concatenation piece (61) and fourth concatenation piece (62) other end are connected with design unit (1) respectively.

2. The component for setting the internal and external corners of the wall body as claimed in claim 1, wherein: the first splicing piece (51) and the second splicing piece (52) both comprise two perpendicular splicing surfaces, the end edge of one splicing surface of the first splicing piece (51) is a first bevel edge (55), the end edge of the other splicing surface of the first splicing piece (51) is a first splicing edge (56), the first splicing edge (56) is perpendicular to the intersecting straight line of the two splicing surfaces, the end edge of one splicing surface of the second splicing piece (52) is a second bevel edge (57), the end edge of the other splicing surface of the second splicing piece (52) is a second splicing edge (58), and the second splicing edge (58) is perpendicular to the intersecting straight line of the two splicing surfaces;

the third splicing piece (61) and the fourth splicing piece (62) both comprise two vertical splicing surfaces, the end edge of one of the splicing surfaces of the third splicing piece (61) is a third bevel edge (63), the end edge of the other splicing surface of the third splicing piece (61) is a third splicing edge (64), the third splicing edge (64) is perpendicular to the intersecting straight line of the two splicing surfaces, the end edge of one of the splicing surfaces of the fourth splicing piece (62) is a fourth bevel edge (65), the end edge of the other splicing surface of the fourth splicing piece (62) is a fourth splicing edge (66), and the fourth splicing edge (66) is perpendicular to the intersecting straight line of the two splicing surfaces.

3. The component for setting the internal and external corners of the wall body as claimed in claim 2, wherein: the included angle between the first bevel edge (55) and the second bevel edge (57) and the intersected straight line of the two splicing surfaces is 45 degrees, and the included angle between the third bevel edge (63) and the fourth bevel edge (65) and the intersected straight line of the two splicing surfaces is 45 degrees.

4. The component for setting the internal and external corners of the wall body as claimed in claim 2, wherein: the end surfaces of the first splicing edge (56), the second splicing edge (58), the third splicing edge (64) and the fourth splicing edge (66) are inclined slope surfaces.

5. The component for setting the internal and external corners of the wall body as claimed in claim 2, wherein: one end of first splice (51) keeping away from first hypotenuse (55), one end of second splice (52) keeping away from second hypotenuse (57), the one end of third hypotenuse (63) is kept away from third splice (61), the one end of fourth hypotenuse (65) is kept away from fourth splice (62) all is provided with outstanding joint and detains (7), the circular central authorities of design unit (1) tip form interface (4), joint knot (7) and interface (4) shape adaptation, joint knot (7) are pegged graft with breach (11).

6. The component for setting the internal and external corners of the wall body as claimed in claim 1, wherein: at least one round hole (2) have all been seted up on design unit (1) two sides, follow a plurality of breachs (11) have been seted up on the both sides edge on design unit (1) length extending direction, and design unit (1) both sides breach (11) are on same water flat line to the straight line that links to each other between two breach (11) all is located the same position of round hole (2).

7. The component for setting the internal and external corners of the wall body as claimed in claim 1, wherein: the first splicing piece (51) is provided with a splicing surface of a first bevel edge (55), the second splicing piece (52) is provided with a splicing surface of a second bevel edge (57), the third splicing piece (61) is provided with a splicing surface of a third bevel edge (63), and the fourth splicing piece (62) is provided with a splicing surface of a fourth bevel edge (65), and gauze (8) are arranged on the splicing surfaces.

8. The component for setting the internal and external corners of the wall body as claimed in claim 1, wherein: and round holes (2) are arranged on the two splicing surfaces of the corner splicing pieces.

9. The component for setting the internal and external corners of the wall body as claimed in claim 6, wherein: a column of square holes (3) are arranged between two columns of round holes (2) of the shaping unit (1), and each square hole (3) is located between two adjacent rows of round holes (2).

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