CN216007588U - Stone-like brick step - Google Patents

Abstract

The utility model discloses a stone-like brick step, which belongs to the field of step stone bricks and comprises a step plate, wherein the surface of the step plate is provided with the step, the upper surface and the side surface of the step plate are respectively provided with a leveling layer, a paving stone plate is paved on the upper surface of the leveling layer, one end of one side of the paving stone plate is connected with a skirting stone plate, one side of the skirting stone plate is jointed with the leveling layer, the side surfaces of the two ends of the skirting stone plate are provided with side stone plates, the upper ends of the side stone plates are fixedly matched with the paving stone plate, one end of one side of the paving stone plate is provided with a corner protection metal strip, one end of the top side surface of the paving stone plate is provided with a seam filling groove, the bottom ends of the inner sides of the seam filling grooves are arc-shaped, and the seam filling grooves are distributed at the two ends of the paving stone plate, the stability of the structure between the floor tiles can be increased to prevent the floor tiles from falling off.

Description

Stone-like brick step

Technical Field

The utility model relates to the field of step stone bricks, in particular to a stone brick imitating step.

Background

The stone-like ceramic tile integrates the advantages of colored concrete tiles, natural marbles and granites into a whole, and accords with the strategic guidelines of national energy conservation, emission reduction and sustainable development, so the stone-like ceramic tile is widely applied to landscape engineering, road pavement and the like after years of development. The existing stone-like ceramic tile step manufacturing method in the market has the conditions of construction difficulty and higher cost.

Generally, put up the ceramic tile, the stone brick of each side of step all needs to be measured, does not have the connection between the fragment of brick for the foundation that does not place between the fragment of brick can refer to, and this kind of mode of putting up needs to consume a large amount of time in measuring, puts up simultaneously and looks for at ordinary times, and the condition of hollowing appears easily, and the long back of live time makes the ceramic tile drop.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

Aiming at the problems in the prior art, the utility model aims to provide a stone-like brick step which can play a role in auxiliary fixation and prevention of plate displacement and collapse, can further improve the construction efficiency, and can increase the structural stability between floor tiles so as to prevent falling.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

The utility model provides an imitative stone brick step, includes the ladder board, the surface of ladder board is provided with the step, the upper surface and the side of step all are provided with the screed-coat, shop front slabstone has been laid to the screed-coat upper surface.

Further, one side end-to-end connection of shop front slabstone has the skirting slabstone, the one side laminating of skirting slabstone has the screed-coat, the both ends side of skirting slabstone is provided with the side slabstone, the upper end of side slabstone agrees with fixedly with shop front slabstone, one side end of shop front slabstone is provided with angle bead metal strip.

Furthermore, a caulking groove is formed in one end of the top side surface of the pavement slab, two splicing grooves are formed in the bottom side of the pavement slab, the bottom ends of the inner sides of the splicing grooves are arc-shaped, the splicing grooves are distributed at two ends of the pavement slab, the side faces of the pavement slab are provided with binding strip grooves, the binding strip grooves are distributed at the side edge angles of the pavement slab, and the two binding strip grooves are located at opposite angle positions.

Furthermore, the edges of the two sides of the skirting stone slab are provided with hook plate strip grooves, the surface of the skirting stone slab is also provided with seam filling grooves, the relative positions of the two hook plate strip grooves are distributed on the side surface of the skirting stone slab in a staggered manner, the side surface of the skirting stone slab is provided with two connecting grooves, and the hook plate strip grooves are matched with the matching strip grooves.

Furthermore, the whole shape of the side stone slab is triangular, the right-angle side of the longer side of the side stone slab fixedly extends out of the splicing strip, the side face of the tail end of the splicing strip is arc-shaped, the splicing strip is matched with the outer structure of the splicing groove, the right-angle side of the side stone slab at the more end side is fixedly connected with the connecting block, and the connecting block is matched with the connecting groove.

Furthermore, the whole cross-sectional shape of angle bead metal strip is zigzag, and angle bead metal strip wholly is provided with three angle of buckling, and the degree of buckling is 90 degrees, the fixed sand grip of medial surface fixedly connected with of angle bead metal strip, the lateral surface fixedly connected with hook plate sand grip of angle bead metal strip, fixed sand grip agrees with mutually with the groove of caulking on the shop front slabstone, the hook plate sand grip agrees with mutually with the groove of caulking on the skirting slabstone.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

(1) this scheme, the shop front slabstone that the hook slat groove at skirting slabstone both ends is connected through upper portion agrees with the agreeing with strip groove of the shop front slabstone of sub-unit connection, plays spacing effect to regard as the fixed point with one side, make the opposite side upset push down cement, this kind of structure lets when the cement of plastering is pushed down, can be even distribute each department on every side, the ceramic tile side of laminating more easily increases the cohesiveness.

(2) This scheme, one side through the side slabstone is connected through linking up the piece and the linking groove of playing foot slabstone side, and the opposite side then carries out the amalgamation through the concatenation groove on concatenation strip and the shop front slabstone and is connected, and the mode that this kind of concatenation aligns can save the construction workman setting-out measuring time, can further promote the efficiency of construction.

(3) This scheme, the relative position between angle bead metal strip fixed and the shop front slabstone through fixed sand grip, rethread hook plate sand grip agrees with the groove of caulking on the skirting slabstone, prevent that the cement that has not solidified yet from flowing, let the skirting slabstone break away from, some that angle bead metal strip extends in addition, the side of the skirting slabstone of laminating that can be fine, can prevent that the inboard cement of skirting slabstone from sinking to the inboard, when increasing plate fixed knot structural strength, can play the effect that prevents the panel displacement and sink.

Drawings

FIG. 1 is a schematic view of the overall distribution structure of the present invention;

FIG. 2 is a schematic view of the construction of a paving slab and a skirting slab of the present invention;

FIG. 3 is a schematic illustration of the construction of a decking slab and a kerbstone according to the present invention;

FIG. 4 is a schematic view of the structure of a skirting board according to the present invention

Fig. 5 is an enlarged structural diagram of a in fig. 2 according to the present invention.

The reference numbers in the figures illustrate:

1. a step plate; 2. a step; 3. leveling layer; 4. a decking slab; 5. a skirting stone plate; 6. a side stone plate; 7. corner protection metal strips; 8. fitting the strip groove; 9. a hook strip slot; 10. a joining block; 11. splicing the strips; 12. splicing grooves; 13. a joining groove; 14. fixing the convex strip; 15. filling a gap groove; 16. hook plate convex strips.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

Referring to fig. 1-5, a stone-like brick step comprises a step plate 1, a step 2 is disposed on the surface of the step plate 1, leveling layers 3 are disposed on the upper surface and the side surfaces of the step 2, and a paving stone plate 4 is laid on the upper surface of the leveling layer 3.

Refer to and draw together figure 1, one side end-to-end connection of shop front slabstone 4 has skirting slabstone 5, the one side laminating of skirting slabstone 5 has screed-coat 3, the both ends side of skirting slabstone 5 is provided with side slabstone 6, the upper end of side slabstone 6 agrees with fixedly with shop front slabstone 4, one side end of shop front slabstone 4 is provided with angle bead metal strip 7, cover skirting slabstone 5 through shop front slabstone 4, let shop front slabstone 4 again will play the fixed relative position of side slabstone 6 of skirting slabstone 5, this kind of interconnect's fixed mode, can increase the stability between the structure, can play supplementary fixed effect simultaneously when the construction.

Referring to fig. 2 and 5, crack filling groove 15 has been seted up to the top side surface one end of shop front slabstone 4, two splice groove 12 have been seted up to the bottom side of shop front slabstone 4, splice groove 12 inboard bottom is the arc, and splice groove 12 distributes in the both ends of shop front slabstone 4, agree with strip groove 8 has all been seted up to the side of shop front slabstone 4, agree with strip groove 8 and distribute in shop front slabstone 4 side angle department, and two agree with strip groove 8 and be in diagonal angle position, shop front slabstone 4 is when the top, need put into the screed-coat 3 that is used for making level with the ascending one side of agree with strip groove 8, let cement fill strip groove 8 again, let cement and shop front slabstone 4's surface keep leveling, treat that cement solidifies the back, some of shop front 4 outstanding shop front will imbed in the cement, let the ceramic tile that top step 2 arranged more firm like this.

Referring to fig. 3, both sides edge of skirting slabstone 5 all is provided with hook lath groove 9, the groove 15 of caulking has also been seted up on the surface of skirting slabstone 5, the relative position of two hook lath grooves 9 is in the dislocation distribution of skirting slabstone 5 side, two department link up groove 13 has been seted up to the side of skirting slabstone 5, hook lath groove 9 agrees with a groove 8 mutually, the hook lath groove 9 at skirting slabstone 5 both ends passes through shop front slabstone 4 that upper portion is connected, agree with a groove 8 of agreeing with of shop front slabstone 4 of sub-unit connection, play spacing effect, when this kind of structure lets the cement of plastering be pushed down, each department around can be evenly shared, the ceramic tile side of laminating more easily, increase the cohesiveness.

Referring to fig. 4, the whole shape of the side stone slab 6 is triangular, the right-angle side of the longer side of the side stone slab 6 is fixedly extended with a splicing strip 11, the end side of the splicing strip 11 is arc-shaped, the splicing strip 11 is matched with the outer structure of a splicing groove 12, the right-angle side of the longer side of the side stone slab 6 is fixedly connected with a linking block 10, the linking block 10 is matched with a linking groove 13, one side of the side stone slab 6 is connected with a linking groove 13 of the side face of a skirting stone slab 5 through the linking block 10, the other side is connected with the splicing groove 12 on the paving stone slab 4 through the splicing strip 11, the splicing alignment mode can save the time for drawing line measurement of construction workers, and the construction efficiency can be further improved.

Referring to fig. 5, the whole cross-sectional shape of the corner protection metal strip 7 is a zigzag shape, and the corner protection metal strip 7 is integrally provided with three bending angles, the bending degrees are all 90 degrees, the inner side surface of the corner protection metal strip 7 is fixedly connected with a fixing convex strip 14, the outer side surface of the corner protection metal strip 7 is fixedly connected with a hook plate convex strip 16, the fixing convex strip 14 is matched with a caulking groove 15 on the paving stone slab 4, the hook plate convex strip 16 is matched with the caulking groove 15 on the skirting stone slab 5, the corner protection metal strip 7 is fixed at a relative position with the paving stone slab 4 through the fixing convex strip 14, and then the hook plate convex strip 16 is matched with the caulking groove 15 on the skirting stone slab 5 to prevent cement which is not solidified from flowing, so that the skirting stone slab 5 is separated, besides, a part of the corner protection metal strip 7 extending out can be well adhered to the side surface of the skirting stone slab 5, thereby preventing the cement on the inner side of the skirting stone slab 5 from collapsing, the plate can prevent the displacement of the plate from collapsing while the strength of the plate fixing structure is increased.

When in use: firstly, covering a cement layer on the step 2 for leveling, filling the cement layer on the step 2 at the uppermost side of the step plate 1 with the matching strip groove 8, placing the matching strip groove 8 into the leveling layer 3 for leveling, filling the matching strip groove 8 with the cement, keeping the surfaces of the cement and the paving stone plates 4 flat, after the cement is solidified, embedding a part of the paving stone plates 4 protruding into the cement, then adding the leveling layer 3 on the side surface in sequence, then sleeving the corner protection metal strip 7 on the paving stone plates 4, then laying the leveling layer 3 of the next step 2, laying the paving stone plates 4, comparing the positions of the skirting stone plates 5, attaching the skirting stone plates 5 to the last paving stone plates 4, smearing the cement on the side surfaces of the skirting stone plates 5 before placing, then turning and pressing by taking the upper side as the center of a circle, adjusting the position of the next stone plate 4, and finally smearing the cement on the side surfaces of the side stone plates 6, the splicing strips 11 and the joining blocks 10 are respectively fitted with the grooves on the paving stone slabs 4 and the skirting stone slabs 5, and then the above steps are repeated.

The foregoing is only a preferred embodiment of the present invention; the scope of the utility model is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (6)

1. The utility model provides an imitative brick step, includes step plate (1), the surface of step plate (1) is provided with step (2), its characterized in that: the upper surface and the side of step (2) all are provided with screed-coat (3), shop front slabstone (4) have been laid to screed-coat (3) upper surface.

2. A stone-like brick step as claimed in claim 1 wherein: one side end-to-end connection of shop front slabstone (4) has skirting flagstone (5), the one side laminating of skirting flagstone (5) has screed-coat (3), the both ends side of skirting flagstone (5) is provided with side flagstone (6), the upper end and shop front flagstone (4) of side flagstone (6) agree with fixedly, one side end of shop front flagstone (4) is provided with angle bead metal strip (7).

3. A stone-like brick step as claimed in claim 2, wherein: fill out crack filling groove (15) have been seted up to the top side surface one end of shop front slabstone (4), two department splice groove (12) have been seted up to the bottom side of shop front slabstone (4), splice groove (12) inboard bottom is the arc, and splice groove (12) distribute in the both ends of shop front slabstone (4), agree with strip groove (8) have all been seted up to the side of shop front slabstone (4), agree with strip groove (8) and distribute in shop front slabstone (4) side angle department, and two department agree with strip groove (8) are in diagonal position.

4. A stone-like brick step as claimed in claim 2, wherein: the edge of the two sides of the skirting stone slab (5) is provided with hook slab grooves (9), the surface of the skirting stone slab (5) is also provided with a joint filling groove (15), the relative positions of the hook slab grooves (9) are distributed on the side surface of the skirting stone slab (5) in a staggered manner, the side surface of the skirting stone slab (5) is provided with two connecting grooves (13), and the hook slab grooves (9) are matched with the matching strip grooves (8).

5. A stone-like brick step as claimed in claim 2, wherein: the whole shape of side slabstone (6) is triangle-shaped, the fixed concatenation strip (11) that extends of right angle limit department of the longer one side of side slabstone (6), the terminal side of concatenation strip (11) is the arc, concatenation strip (11) agree with mutually with the outer structure of concatenation groove (12), the right angle limit department fixedly connected with of side slabstone (6) more end one side links up piece (10), link up piece (10) and link up groove (13) and agree with mutually.

6. A stone-like brick step as claimed in claim 2, wherein: the whole cross sectional shape of angle bead metal strip (7) is the dogleg shape, and angle bead metal strip (7) wholly is provided with three angle of buckling, and the degree of buckling is 90 degrees, the fixed sand grip (14) of medial surface fixedly connected with of angle bead metal strip (7), the lateral surface fixedly connected with of angle bead metal strip (7) catches up with board sand grip (16), fixed sand grip (14) agree with mutually with caulking groove (15) on shop front slabstone (4), catch up with board sand grip (16) and the caulking groove (15) on playing foot slabstone (5) agree with mutually.

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