CN210918032U - Component for shaping internal and external corners of wall - Google Patents

Abstract

The utility model relates to a component for wall body external and internal corner is stereotyped, including design unit and the mosaic structure of setting on design unit, design unit sets up to the section bar that the cross-section is L shape, and a plurality of design units can splice into the design component of different length, different shapes through mosaic structure to be applicable to different positions, not co-altitude external and internal corners.

Description

Component for shaping internal and external corners of wall

Technical Field

The utility model relates to a design component especially relates to a component that is used for wall body negative and positive angle to design.

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. The cross-section that current negative and positive angle design component mostly set up as an organic whole is the section bar of L type, because its length is difficult to highly cooperate with the wall body, so need use the cooperation of multisection negative and positive angle design component when being under construction to same corner, current cooperation process is generally that the tip that will adjacent negative and positive angle design component aligns through constructor observation, coats coating to on the negative and positive angle design component again.

However, due to the observation error of constructors, the ends of two adjacent male and female corner shaping components are not aligned well, and the construction error of the male and female corners is larger and larger along with the increase of the height of the construction wall corner.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a component for wall body negative and positive angle is stereotyped, its advantage lies in that adjacent negative and positive angle design component can align, and along with the increase of construction corner height, the construction error at negative and positive angle is less.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a component for shaping internal and external corners of a wall body comprises a shaping unit and a splicing structure arranged on the shaping unit, wherein the shaping unit is provided with a section bar with an L-shaped section, the shaping unit comprises two side plates which are vertical to each other, the end parts of the side plates are respectively provided with a first-stage ladder shape, and the height and the width of the first-stage ladder shape are equal to half of the width of the side plates; the steps of the two side plates at one end of the shaping unit are close to each other, and the steps at the other end of the shaping unit are far away from each other; the edge of the stepped straight line away from the center of the shaping unit along the length of the shaping unit is provided with a first connecting block, the edge of the other two sides of the stepped straight line parallel to the edge where the first connecting block is located and the edge perpendicular to the edge where the first connecting block is located are respectively provided with a first connecting groove and a second connecting groove, and the first connecting groove and the second connecting groove are matched with the first connecting block in shape; when the first connecting block of one shaping unit is inserted into the first connecting groove or the second connecting groove of the other shaping unit, the side plate surfaces connected by the two shaping units are correspondingly flush.

By adopting the technical scheme, the shaping units can be spliced into different lengths and shapes through the steps, the first connecting block and the two connecting grooves, and when the first connecting block of one shaping unit is correspondingly connected with the first connecting groove of the other shaping unit, the two shaping units are spliced into a shaping component with the length twice of the unit length of the shaping unit; when the first connecting block of one shaping unit is connected with the second connecting groove of the other shaping unit, the connected first connecting block and the second connecting groove can splice the corresponding side plates on the two shaping units into a right-angled strip-shaped plate, so that the two shaping units form a shaping component with the length being vertical to the straight line; the shaping units can be combined into shaping components with different lengths and different shapes by various splicing modes so as to be suitable for corners with different shapes, different positions and different heights.

The utility model discloses further set up to: the shaping unit is also provided with a second connecting block which is consistent with the first connecting block in shape, and the second connecting block comprises two connecting blocks which are respectively positioned on two sides of the end part of the shaping unit, which is close to each other in a stepped manner;

when the first connecting block on one shaping unit is inserted into the second connecting groove of the other shaping unit, the second connecting block at the corresponding position on the shaping unit where the second connecting groove is located is inserted into the first connecting groove of the shaping unit where the first connecting block is located.

By adopting the technical scheme, when the two sizing units are combined into the sizing component with the length being vertical to the straight line, the second connecting block on one sizing unit is connected with the first connecting groove on the other sizing component, so that the connecting strength of the two sizing units is enhanced.

The utility model discloses further set up to: the cross sections of the first connecting block and the second connecting block are both T-shaped, straight lines where the lengths are located are parallel to the side edges of the shaping units where the first connecting block or the second connecting block are located, and the T-shaped transverse blocks are far away from the side edges of the shaping units where the first connecting block or the second connecting block are located.

Through adopting above-mentioned technical scheme, the connecting block simple structure of T shape sets up and processes all more conveniently.

The utility model discloses further set up to: the end parts of the first connecting block and the second connecting block, which are far away from the shaping unit, are provided with the cutting heads which are convenient to insert into the first connecting groove or the second connecting groove.

Through adopting above-mentioned technical scheme, the setting up of cutting the head makes the connecting block insert the spread groove more easily to the equipment of design unit has been made things convenient for.

The utility model discloses further set up to: the shaping unit and the splicing structure are integrally formed through injection molding.

Through adopting above-mentioned technical scheme, integrative injection moulding's structure makes the convenient just wholeness of unit processing of stereotyping better.

The utility model discloses further set up to: the surface of the shaping unit is arranged roughly.

Through adopting above-mentioned technical scheme, the coarse surface of design unit is favorable to the design unit to fix to the cement wall on, also is favorable to the coating to glue on the design unit surface.

The utility model discloses further set up to: and a plurality of round holes are arranged on the qualitative unit.

Through adopting above-mentioned technical scheme, the architectural coatings in the design unit outside can be connected with the inboard cement wall of design unit through the round hole to the joint strength of the building material of design unit both sides has been strengthened.

The utility model discloses further set up to: the edges and corners of the shaping unit are all set to be round corners.

Through adopting above-mentioned technical scheme, the edges and corners that will decide the design unit set up to the fillet, can reduce the staff by the possibility of design unit edges and corners fish tail when the concatenation design unit.

To sum up, the utility model discloses a beneficial technological effect does:

1. the plurality of shaping units are spliced and assembled into shaping components suitable for different shapes and lengths through the steps, the first connecting block, the first connecting groove and the second connecting groove, so that the shaping components are suitable for corners at different positions and different heights;

2. the second connecting block is arranged to ensure that the connection is more stable when the shaping units are vertically spliced;

3. the edges and corners of the shaping unit are rounded corners, so that the splicing shaping unit is not easy to scratch.

Drawings

Fig. 1 is a schematic structural view of the shaping unit of the present invention;

FIG. 2 is a schematic structural diagram of the extension splicing of the shaping unit;

FIG. 3 is a schematic view of a connection structure of the first connection block and the first connection slot;

fig. 4 is a structural schematic diagram of vertical splicing of the shaping units.

In the figure, 1, a shaping unit; 11. a circular hole; 2. a first connection block; 3. a second connecting block; 4. a first connecting groove; 5. a second connecting groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, a component for shaping internal and external corners of a wall body comprises a shaping unit 1 and a splicing structure arranged on the shaping unit 1, wherein the shaping unit 1 can be spliced into shaping components suitable for the internal and external corners at different angles, different lengths and different positions through the splicing structure.

In the embodiment, the shaping unit 1 is provided as an integrally injection-molded section bar with an L-shaped section; because the shaping unit 1 is generally directly covered and fixed in a wall by the building coating when in use, a plurality of round holes 11 are arranged on the shaping unit 1, the building coating outside the shaping unit 1 can be connected with the cement wall on the inner side of the shaping unit 1 through the round holes 11, thereby enhancing the connection strength of the building materials on two sides of the shaping unit 1; meanwhile, the surface of the shaping unit 1 is arranged in a rough manner (for example, the shaping unit is arranged to be frosted), so that the connection between the architectural coating and the shaping unit 1 and the connection between the shaping unit 1 and the cement on the inner wall are more stable.

Referring to fig. 2 and 3, the splicing structure specifically includes the following structures:

the shaping unit 1 comprises two strip-shaped side plates, the two side plates are perpendicular to each other, and the two side plates are fixedly connected with each other in a side edge mode and are close to each other. Two tip of every curb plate all set up to one-level echelonment, and the ladder height and the width of this echelonment are equalling in half of curb plate width, and two staircases that the curb plate is located 1 one end of design unit are close to each other, and the staircase of opposite side is kept away from each other to make two staircases on 1 of one design unit be close to one end each other and can insert the one end that two staircases kept away from each other on another design unit 1, make two design units 1 splice into the section bar of twice length in design unit 1.

The ladder-shaped edge of each side plate of the shaping unit 1, which is far away from the center of the shaping unit 1 along the straight line where the length of the shaping unit 1 is, is integrally provided with a first connecting block 2 with a T-shaped section; this stairstepping is provided with first spread groove 4 in two other edges of ladder-shaped with the parallel limit in connecting block place limit, is provided with first spread groove 4 with connecting block vertically edge, and first spread groove 4 and second spread groove 5 all with be used for with the cooperation of pegging graft of first connecting block 2.

Referring to fig. 2 and 4, when the first connecting block 2 on one shaping unit 1 is in inserted fit with the first connecting groove 4 on the other shaping unit 1, the two shaping units 1 are spliced into a profile twice as long as the shaping units 1; when the first connecting block 2 on one shaping unit 1 is spliced and matched with the second connecting groove 5 on the other shaping unit 1, the two shaping units 1 are spliced into a section bar with the length of the straight line being a right angle.

Referring to fig. 4, in order to make the connection of the two shaping units 1 spliced into the section bar with the length on the straight line at the right angle more stable, the two sides of the end, close to each other, of the stepped shape of the shaping unit 1 are provided with the second connecting blocks 3 which are completely consistent with the first connecting blocks 2 in shape and structure. When two design units 1 splice into length place straight line and be the right angle section bar, the first spread groove 5 of another design unit 1 can be inserted to the first connecting block 2 of a design unit 1, and simultaneously, the first spread groove 4 at above-mentioned first connecting block 2 place can overlap and establish on above-mentioned second connecting block 3 to make two design unit 1's connection more stable.

Referring to fig. 3, it can be understood that, in the process of inserting the connecting block into the connecting groove, the transverse portion of the T-shape of the connecting block passes through the groove of the connecting groove corresponding to the longitudinal portion of the T-shaped connecting block, and the fixing unit 1 is generally made of PVC plate and is thin, so that the groove wall of the connecting groove itself has a certain elasticity, which can allow the wider portion of the connecting block to pass through the narrower portion of the connecting groove.

Furthermore, in order to enable the connecting block to pass through the narrow connecting groove region more easily, both sides of the part of the connecting block away from the shaping unit 1 are provided with cutting surfaces for reducing the width of the connecting block, the cutting surfaces on both sides of the connecting block enable the top of the connecting block to be in an upright isosceles trapezoid shape, and the top edge of the isosceles trapezoid shape is smaller than the width of the narrow connecting groove part.

Referring to fig. 4, further, in order to reduce the possibility that the constructor is scratched by the edges and corners of the shaping unit 1 when splicing the shaping unit 1, the edges and corners of the shaping unit 1 are all set to be rounded.

In the specific working process: for the internal and external corners formed by two intersecting surfaces, the shaping units 1 are spliced along the length direction as required in the construction process, so that the shaping units 1 are spliced into the length suitable for the height of the wall corner, the shaping components are the whole spliced by the shaping units 1 according to the structure, errors generated when construction personnel align through naked eyes can not be generated, meanwhile, the shaping components suitable for the internal and external corners formed by three intersecting surfaces can be spliced according to the splicing mode of every two of the shaping units 1, and therefore classification processing is not needed in the processing process, and the processing cost is saved.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a component that is used for wall body negative and positive angle to stereotype which characterized in that: the forming unit comprises a forming unit (1) and a splicing structure arranged on the forming unit (1), wherein the forming unit (1) is arranged to be a sectional material with an L-shaped section, the forming unit (1) comprises two side plates which are perpendicular to each other, the end parts of the side plates are arranged to be in a primary step shape, and the height and the width of the primary step shape step are equal to half of the width of each side plate; the steps of the two side plates at one end of the shaping unit (1) are close to each other, and the steps at the other end of the shaping unit (1) are far away from each other; the edge of the ladder-shaped straight line, away from the center of the shaping unit (1), along the length of the shaping unit (1) is provided with a first connecting block (2), the edge of the other two sides of the ladder-shaped straight line, parallel to the edge where the first connecting block (2) is located, and the edge perpendicular to the edge where the first connecting block (2) is located, are respectively provided with a first connecting groove (4) and a second connecting groove (5), and the first connecting groove (4) and the second connecting groove (5) are matched with the first connecting block (2) in shape; when the first connecting block (2) of one shaping unit (1) is inserted into the first connecting groove (4) or the second connecting groove (5) of the other shaping unit (1), the side plate surfaces connected by the two shaping units (1) are correspondingly flush.

2. The component for setting the internal and external corners of the wall body as claimed in claim 1, wherein: the shaping unit (1) is also provided with a second connecting block (3) which is consistent with the first connecting block (2) in shape, and the second connecting block (3) comprises two connecting blocks which are respectively positioned on two sides of the end part, close to each other, of the shaping unit (1) in a stepped shape;

when a first connecting block (2) on one shaping unit (1) is inserted into a second connecting groove (5) of another shaping unit (1), a second connecting block (3) at a corresponding position on the shaping unit (1) where the second connecting groove (5) is located is inserted into a first connecting groove (4) of the shaping unit (1) where the first connecting block (2) is located.

3. The component for setting the internal and external corners of the wall body as claimed in claim 2, wherein: the cross sections of the first connecting block (2) and the second connecting block (3) are both T-shaped, straight lines where the lengths are located are all parallel to the side edge of the shaping unit (1) where the first connecting block (2) or the second connecting block (3) are located, and the T-shaped transverse block is far away from the side edge of the shaping unit (1) where the first connecting block (2) or the second connecting block (3) is located.

4. The component for setting the internal and external corners of the wall body as claimed in claim 3, wherein: the end parts, far away from the shaping unit (1), of the first connecting block (2) and the second connecting block (3) are provided with cutting heads which are convenient to insert into the first connecting groove (4) or the second connecting groove (5).

5. The component for setting the internal and external corners of the wall body as claimed in claim 1, wherein: the shaping unit (1) and the splicing structure are integrally formed through injection molding.

6. The component for setting the internal and external corners of the wall body as claimed in claim 1, wherein: the surface of the shaping unit (1) is arranged roughly.

7. The component for setting the internal and external corners of the wall body as claimed in claim 1, wherein: the shaping unit (1) is provided with a plurality of round holes (11).

8. The component for setting the internal and external corners of the wall body as claimed in claim 1, wherein: the edges and corners of the shaping unit (1) are all set to be round corners.

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