CN211396429U - Paving floor - Google Patents

Abstract

The utility model discloses a ground of mating formation. The pavement of the ground comprises: the supporting plate is provided with a positioning point; a groove is formed in the top corner of each floor and is positioned on the front surface of each floor; the front surfaces of the at least two positioning pastes are correspondingly pasted and arranged on the at least two grooves one by one, and the back surfaces of the at least two positioning pastes are respectively provided with viscosity; the at least two sound insulation gaskets are correspondingly adhered to and arranged on the front surfaces of the at least two floors one by one; the top angles of the at least two floors are abutted to the positioning points, the end portions of the side walls of the at least two grooves are sequentially connected to limit a splicing groove, and the supporting piece is located in the splicing groove and is fixedly adhered to the at least two positioning pastes. The utility model provides a mat formation ground has improved the syllable-dividing effect on floor, shortens construction cycle, reduces the floor and lays the cost, alleviates the building bearing, improves the regularity of floor in concatenation department, and the floor can be used repeatedly, reduces environmental pollution, resources are saved.

Description

Paving floor

Technical Field

The utility model relates to an architectural decoration technical field especially relates to a ground of mating formation.

Background

The floor pavement is one of important components of building decoration, can increase the comfort and aesthetic feeling of indoor environment, and is widely applied to various public buildings, residential buildings and the like.

In the prior art, the floor paved on the ground is mainly installed on the ground in a mode of wet pasting of cement mortar or paving of dry and hard cement mortar and plain cement mortar. The inventor finds that the paving mode has the following defects in the process of realizing the invention and creation: firstly, the floor is small in thickness and weak in strength, and is easy to crack under the action of external force when being paved, so that the construction cost is improved; secondly, the cement mortar increases the bearing of the building while fixing the floor, which is not beneficial to the stability of the building; thirdly, when the floor is spliced by an operator, the floor is paved according to experience, so that the precision of the floor and the spliced part is low, the uniformity of the laid floor is poor, and the construction effect is influenced; fourthly, the paving construction of cement mortar is complex, the period is long, the construction efficiency is low, and the environment is easily polluted; fifth, the existing flooring in a paving and pasting manner is generally difficult to reuse, which not only pollutes the environment, but also wastes resources.

Therefore, it is necessary to solve the above-mentioned technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pavement ground to solve the problem that exists among the prior art, improve the syllable-dividing effect on floor, shorten construction cycle, reduce the floor and lay the cost, alleviate the building bearing, improve the regularity of floor in concatenation department, the floor can be used repeatedly, reduces environmental pollution, resources are saved.

The utility model provides a mat formation ground, include: the supporting plate is used for being fixed on the ground, and positioning points are arranged on the supporting plate; the floor comprises at least two floors, wherein a groove is formed in the vertex angle of each floor and is positioned on the front surface of each floor, and the groove wall of each groove extends towards two side surfaces of each floor, which are intersected with the vertex angle, and penetrates through the two side surfaces; the front surfaces of the at least two positioning pastes are correspondingly pasted and installed on the at least two grooves one by one, and the back surfaces of the at least two positioning pastes are sticky; the sound insulation gaskets are correspondingly adhered to and arranged on the front surfaces of the at least two floors one by one, and the edge of any one sound insulation gasket is aligned with the edge of any one floor one by one; the top angles of at least two floors are abutted against the positioning points, the at least two floors are arranged in the same plane along the circumferential direction by taking the positioning points as circle centers, the end to end of the side walls of the at least two grooves are sequentially connected to limit splicing grooves, and the supporting piece is located in the splicing grooves and is fixedly bonded with the at least two positioning pastes.

Optionally, the number of the floor boards is four, and the four floor boards are sequentially spliced end to end along the positioning points.

Optionally, two cross-arranged partition strips are installed on the front surface of the supporting plate, the two partition strips intersect at the positioning points to divide the front surface of the supporting plate into four regions, and the four top corners of the floor are respectively installed in the four regions in a filling manner.

Optionally, the positioning tape is a female surface of the magic tape, each male surface of the magic tape is filled in the region, and the male surface of the magic tape is adhered and fixed with the female surface of the magic tape.

Optionally, the front surface of the floor is further provided with a plurality of reinforcing ribs, and the plurality of reinforcing ribs are arranged in a crossed manner.

Optionally, the sound-proof gasket is a rubber mat.

Optionally, the number of the grooves on each floor is multiple, and the grooves are correspondingly arranged at multiple top corners of each floor.

Optionally, the groove is a sector groove, a vertex of each sector groove and a plurality of corner points of the vertex angle are overlapped in a one-to-one correspondence manner, each sector groove includes an arc-shaped side surface, and two sides of each arc-shaped side surface extend towards two intersecting side surfaces of the vertex angle respectively and penetrate through the two side surfaces respectively.

Optionally, the front surface of the floor is further provided with an auxiliary groove, and one side of the auxiliary groove extends towards and penetrates through the side surface of the floor.

The utility model provides a paving floor, after the supporting plate is arranged on the floor, the vertex angles of at least two floors are pressed against the positioning points, and a closed splicing structure is formed along the circumferential direction of the positioning points; fix in the backup pad through location subsides bonding, make two at least floors align with higher precision in concatenation department, improved the regularity of floor in concatenation department, and the location subsides bonding back in the backup pad, the floor after the concatenation is injectd in the position at backup pad place, need not to set up cement mortar location, has alleviateed the bearing of building, has improved the stability of building. When the floor is disassembled, the positioning paste is torn down from the supporting plate, the floor is free of damage, the disassembled floor can be repeatedly used, the environmental pollution is reduced, and the resources are saved.

Drawings

The preferred embodiments of the present invention will hereinafter be described in detail, with the aid of the annexed drawings, for aiding the understanding of the objects and advantages of the invention, wherein:

fig. 1 is a schematic structural view of a pavement provided by an optional embodiment of the present invention.

Fig. 2 is a partially enlarged view of a in fig. 1.

Fig. 3 is a schematic structural view of the floor compounded with the positioning paste and the sound insulation gasket.

Fig. 4 is a schematic structural view of the sound-proof spacer separated from the floor board combined with the positioning sticker.

Fig. 5 is a schematic structural view of a floor according to an alternative embodiment of the present invention.

Fig. 6 is a schematic structural view of a support plate according to an alternative embodiment of the present invention.

Fig. 7 is a front view of fig. 6.

Detailed Description

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

Fig. 1 is the structural schematic diagram of the pavement ground that the optional embodiment of the present invention provides, fig. 2 is a partial enlarged view of a in fig. 1, fig. 3 is the structural schematic diagram after the floor 21 is compounded with the positioning sticker 26 and the sound-proof gasket 3, fig. 4 is the structural schematic diagram of the sound-proof gasket 3 and the floor 21 that is compounded with the positioning sticker 26 that are separated from each other, fig. 5 is the structural schematic diagram of the floor 21 that the optional embodiment of the present invention provides, fig. 6 is the structural schematic diagram of the support plate 11 that the optional embodiment of the present invention provides, and fig. 7 is the front view of fig. 6. As shown in fig. 1 to 7, the present invention provides a pavement comprising a support plate 11, a floor 21, a positioning sticker 26 and a sound-proof spacer 3.

Referring to fig. 1 to 7, a supporting plate 11 is installed on the ground for positioning at least two floor boards 21, a positioning point 15 is provided on the supporting plate 11 as a reference for splicing the floor boards 21, a groove 22 is provided at a vertex angle of the floor board 21, the groove 22 is located on the front surface of the floor board 21, and a groove wall of the groove 22 extends towards two side surfaces of the floor board 21 intersecting the vertex angle and penetrates through the two side surfaces; the front surfaces of at least two positioning pastes 26 are correspondingly adhered and mounted on the at least two grooves one by one, and the back surfaces of the at least two positioning pastes 26 are sticky; the sound insulation gasket 3 is attached to and arranged on the front surface of the floor 21, and the edges of the sound insulation gasket 3 are aligned with the edges of the floor 21 in a one-to-one correspondence manner. The sound insulation spacer 3 can increase the sound insulation effect of the floor 21, and is favorable for construction acceptance. In a specific implementation process, after the supporting plate 11 is arranged on the ground, the vertex angles of at least two floor boards 21 are abutted to the positioning points 15, a closed splicing structure is formed along the circumferential direction of the positioning points 15, and the positioning paste 26 is adhered and fixed on the supporting plate 11, so that the at least two floor boards 21 are aligned at the splicing position with high precision, and the uniformity of the floor boards 21 at the splicing position is improved. After the positioning paste 26 is bonded on the supporting plate 11, the spliced floor 21 is limited at the position of the supporting plate 11, cement mortar is not needed to be arranged for positioning, the bearing of a building is reduced, and the stability of the building is improved. When the floor 21 is disassembled, the positioning sticker 26 is torn off from the supporting plate 11, the floor 21 is damaged to zero, the disassembled floor 21 can be reused, the environmental pollution is reduced, and the resources are saved.

The number of the floor boards 21 is four, and the four floor boards 21 are sequentially spliced end to end along the positioning points 15. The apex angle of floor 21 sets up to the right angle more, and four right-angled floor 21 splice in order 15 heads and tails of setpoint can form 360 mosaic structure, high-efficient practical in setpoint 15. Two partition strips 12 which are arranged in a crossed mode are installed on the front face of the supporting plate 11, the two partition strips 12 are intersected at the positioning points 15 to divide the front face of the supporting plate 11 into four areas, and the top angles of the four floors 21 are respectively installed in the four areas in a filling mode. The partition bar 12 can further position the four floor boards 21, thereby improving the installation accuracy of the four floor boards 21.

Optionally, the positioning sticker 26 is a female surface of the magic sticker, a male surface of the magic sticker is arranged on the supporting plate 11, and when the positioning sticker 26 is bonded on the supporting plate 11, the male surface of the magic sticker and the female surface of the magic sticker are bonded. Through the above-mentioned mounting means that bonds, the apex angle detachably installs on backup pad 11, is favorable to floor 21 used repeatedly, further saves construction cost.

Optionally, the positioning paste 26 is filled in the groove 22, so that the bonding area of the positioning paste 26 can be increased, and the installation stability of the floor 21 is improved.

Optionally, the front surface of the floor 21 is further provided with at least two reinforcing ribs 23, and the at least two reinforcing ribs 23 are arranged in a crossing manner. The reinforcing ribs 23 can increase the strength of the floor 21, reduce the probability of the floor 21 being cracked in the laying process and facilitate the reduction of the construction cost.

On the basis of the above embodiment, two reinforcing ribs 23 which are arbitrarily intersected are vertically arranged, so that the reinforcing ribs 23 can be arranged on the floor 21 in order, and the strength of the floor 21 is effectively increased. As a preferable mode, the distance between any two adjacent reinforcing ribs 23 is equal, so that the supporting function of the reinforcing ribs 23 on the floor 21 can be further improved, and the strength of the floor 21 can be improved.

Preferably, the sound insulation gasket 3 is a rubber mat, and the two sides of the sound insulation gasket 3 can be respectively adhered to the floor 21 and the ground without cement positioning, so that the stability of the structure is improved, and the bearing of the building structure is reduced. In addition, the sound-proof gasket 3 can also play a role of micro leveling, and the flatness of the floor 21 after being laid is improved.

On the basis of the above embodiment, the sound-insulating spacer 3 is provided with at least two air holes 31 penetrating through the sound-insulating spacer 3. The air holes 31 can increase the dryness of the floor 21, which is beneficial to prolonging the service life of the floor 21, and in addition, positioning colloid can be filled in the air holes 31, so that the positioning effect between the floor 21 and the ground is further increased.

Further, at least two of the ventilation holes 31 are uniformly distributed on the sound-insulating spacer 3, which not only increases the ventilation effect to the floor 21, but also provides the stability of the sound-insulating spacer 3 adhered to the ground through the ventilation holes 31.

Optionally, the number of the grooves 22 is at least two, and at least two grooves 22 are correspondingly arranged at least two top corners of the floor 21; the top angles of the floor 21 are fixedly arranged, so that the stability and the uniformity of the floor 21 paved on the ground can be improved.

On the basis of the above embodiment, the groove 22 is a sector groove, the vertexes of at least two sector grooves and the angle points of at least two vertex angles are overlapped in a one-to-one correspondence manner, the sector groove includes an arc-shaped side wall 28, and the groove walls located at two sides of the arc-shaped side wall 28 extend toward two side surfaces intersecting with each other at the vertex angle and penetrate through the two side surfaces respectively. Referring to fig. 1, the sector grooves are formed by downwards sinking sector-shaped grooves at the top corners, and the circle center of the sector groove is properly 90 degrees as compared with a square floor 21 commonly used in the prior art, the sector grooves of four floors 21 are spliced at the top corners to define a circular groove, a circular support plate 11 is arranged on the ground, and the four floors 21 are clamped at the same time, so that the four spliced floors 21 can be positioned, and the operation is simple and convenient to implement.

Optionally, the front surface of the floor 21 is further provided with an auxiliary groove 24, a groove wall of the auxiliary groove 24 extends towards one side surface and penetrates through the side surface, when the floor 21 is spliced, the side surface abuts against the side surface, the auxiliary groove 24 is arranged on the side surface of the floor 21, and the side surface of the floor 21 can be effectively positioned, so that the stability of the floor 21 at the spliced position is further improved.

The preferred, the auxiliary tank 24 is the half slot, the half slot includes semicircle lateral wall and the plane lateral wall that the end to end connects in order, the semicircle lateral wall orientation the side sets up, the plane lateral wall runs through behind side, half slot and the 11 joints of backup pad, can improve area of contact between half slot and the backup pad 11, and the half slot atress after the joint is steady, is favorable to increasing 21 side-mounting in floor's stability.

Further, the number of the auxiliary grooves 24 is at least two, and at least two auxiliary grooves 24 are correspondingly arranged on at least two side surfaces. Auxiliary grooves 24 are formed in all the side faces of the floor 21, and the supporting plate 11 on the floor 21 is clamped on each auxiliary groove 24, so that all the side faces of the floor 21 can be further positioned, and the installation reliability of the floor 21 is improved.

On the basis of the above embodiment, the distance between the center of the semicircular groove and the two grooves 22 respectively located at the two ends of the side surface is the same, after the floor boards 21 with the same size are spliced, the two semicircular grooves can be spliced to form a circular groove, and the circular grooves are uniformly positioned through the supporting plate 11, so that the splicing accuracy can be further improved.

Preferably, the floor 21 is further provided with a lightening slot 25, and the lightening slot 25 passes through the center of the floor 21 and passes through the center of the lightening slot 25 perpendicular to the center line of the floor 21. The weight reduction groove 25 can further reduce the bearing of the building, save the cost and play a role in further positioning after being clamped with the support plate 11.

Wherein both ends of subregion strip 12 all extend to the border of backup pad 11, the both sides of subregion strip 12 all are provided with the public face that is used for installing the magic subsides of floor 21, the public face dorsad of magic subsides one side of backup pad 11 has viscidity. The number of the partition strips 12 can be at least two, one partition strip 12 can divide the support plate 11 into two regions, one floor 21 can be placed in each of the two regions, the two floors 21 are respectively abutted to two sides of the partition strips 12 and are spliced, and the partition strip is suitable for the condition that the other sides of the floors 21 are abutted to the wall surface. At least two subregion strips 12 that set up alternately can be divided into 2n (n is the quantity of subregion strip 12) regions with backup pad 11, and 2n regions can place the apex angle of 2n floor 21, and every apex angle all fills in an area, and two at least floor 21 pass through backup pad 11 and effectively splice, have improved the construction effect that floor 21 laid.

Preferably, the supporting plate 11 is a circular plate, and the two partitioning strips 12 intersect at the center of the circular plate, so that the top angle of each floor 21 can extend to the center of the supporting plate 11, thereby increasing the stability of the top angle on the supporting plate 11. Wherein the diameter of the support plate 11 can be set to 50mm to ensure a sufficient contact area between the support plate 11 and the top corner.

Further, two of the partition strips 12 are vertically arranged, so that the supporting plate 11 can be uniformly divided into four regions with equal areas, and the supporting plate 11 is suitable for bonding the floor 21 with right-angled top angles.

Optionally, this application the public face of magic subsides and the female face of magic subsides all have unique mushroom head 14 designs, can make the pulling force of the public face of magic subsides and the female face of magic subsides effectively strengthen, are favorable to increasing the bonding effect of floor 21's backup pad 11.

Further, the distance between one end of the male surface of the magic tape far away from the support plate 11 and the support plate 11 is greater than the height of the partition bar 12. The subregion strip 12 plays the effect of subregion, and the height of subregion strip 12 can set to less, about 1mm, and the height that the mushroom head 14 of the public face of magic subsides can set up is higher, is extruded after the public face of magic subsides is laminated mutually with the female face of magic subsides to play buffering and the effect of appropriate leveling.

Optionally, the support plate 11 is a plastic plate. The supporting plate 11 is made of plastic plate, so that the forming is convenient, the weight is light, and the bearing of the building can be further reduced.

Preferably, the division bar 12 is integrally injection-molded on the support plate 11, which is beneficial to simplifying the processing process and reducing the production cost. The utility model provides a paving ground, backup pad 11 sets up subaerial back, the equal butt in apex angle on anchor point 15 of two at least floors 21, circumference along anchor point 15 forms closed mosaic structure, and paste 26 through the location and bond and fix in backup pad 11, make two at least floors 21 locate higher precision alignment in the concatenation, floor 21 has improved the regularity in concatenation department, and the location is pasted 26 and is bonded back in backup pad 11, floor 21 after the concatenation is injectd in the position at backup pad 11 place, need not to set up cement mortar location, the bearing of building has been alleviateed, the stability of building has been improved, and when dismantling floor 21, paste 26 with the location and tear from backup pad 11 can, zero damage to floor 21, floor 21 repeatedly usable under the dismantlement, environmental pollution has been reduced, resources are saved.

The utility model discloses a method of mating formation on ground of mating formation is to above arbitrary one the ground of mating formation is mated formation, including following step: installing a support plate 11 on the ground, wherein a positioning point 15 is arranged on the support plate 11; at least two floor boards 21 arranged on the supporting board 11 are arranged, a groove is arranged at the top corner of each floor board 21, the groove is positioned on the front surface of the floor board 21, and the groove wall of the groove extends towards two side surfaces of the floor board 21, which are intersected at the top corner, and penetrates through the two side surfaces; positioning pastes 26 are arranged on the top corners of each floor 21, so that the front surfaces of at least two positioning pastes 26 are correspondingly pasted and installed on the at least two grooves one by one, and the back surfaces of at least two positioning pastes 26 are sticky; s4, mounting sound insulation gaskets 3 on each floor 21, wherein at least two sound insulation gaskets 3 are correspondingly attached to and arranged on the front surfaces of at least two floors 21 one by one, and the edge of any one sound insulation gasket 3 is correspondingly aligned with the edge of any one floor 21 one by one; arranging at least two floor boards 21 in sequence around the positioning points 15 of the supporting plate 11, enabling vertex angles of the at least two floor boards 21 to abut against the positioning points 15, arranging the at least two floor boards 21 in a circumferential direction in the same plane by taking the positioning points 15 as circle centers, sequentially connecting the end portions of the side walls of the at least two grooves to define a splicing groove, and enabling the supporting piece to be located in the splicing groove and to be fixedly bonded with the at least two positioning stickers 26.

In the paving floor provided by the embodiment of the utility model, after the supporting plate 11 is arranged on the floor, the top angles of at least two floors 21 are abutted against the positioning points 15, and a closed splicing structure is formed along the circumferential direction of the positioning points 15; fix through the location subsides 26 bonding on backup pad 11, make two at least floors 21 in the concatenation with higher precision alignment, improved the regularity of floor 21 in concatenation department, and the location subsides 26 bond back in backup pad 11, floor 21 after the concatenation is injectd in the position at backup pad 11 place, need not to set up cement mortar location, has alleviateed the bearing of building, has improved the stability of building. When the floor 21 is disassembled, the positioning sticker 26 is torn off from the supporting plate 11, the floor 21 is damaged to zero, the disassembled floor 21 can be reused, the environmental pollution is reduced, and the resources are saved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (9)

1. A paved surface, comprising:

the supporting plate is used for being fixed on the ground, and positioning points are arranged on the supporting plate;

the floor comprises at least two floors, wherein a groove is formed in the vertex angle of each floor and is positioned on the front surface of each floor, and the groove wall of each groove extends towards two side surfaces of each floor, which are intersected with the vertex angle, and penetrates through the two side surfaces;

the front surfaces of the at least two positioning pastes are correspondingly pasted and installed on the at least two grooves one by one, and the back surfaces of the at least two positioning pastes are sticky;

the sound insulation gaskets are correspondingly adhered to and arranged on the front surfaces of the at least two floors one by one, and the edge of any one sound insulation gasket is aligned with the edge of any one floor one by one;

the top angles of at least two floors are abutted against the positioning points, the at least two floors are arranged in the same plane along the circumferential direction by taking the positioning points as circle centers, the end to end of the side walls of the at least two grooves are sequentially connected to limit splicing grooves, and the supporting piece is located in the splicing grooves and is fixedly bonded with the at least two positioning pastes.

2. The paved floor of claim 1, wherein the number of the floor boards is four, and the four floor boards are sequentially spliced end to end along the positioning points.

3. The paved floor of claim 2, wherein the front surface of the supporting plate is provided with two cross-arranged subarea strips, the two subarea strips intersect at the positioning points to divide the front surface of the supporting plate into four areas, and the top corners of the four floors are respectively filled and arranged in the four areas.

4. The paved ground of claim 3, wherein the positioning tape is a female surface of the magic tape, a male surface of the magic tape is filled in each region, and the male surface of the magic tape is adhered and fixed with the female surface of the magic tape.

5. The paved surface of claim 4, wherein the front surface of the floor board is further provided with a plurality of reinforcing ribs, and the plurality of reinforcing ribs are arranged in a crossed manner.

6. The paved surface of claim 5, wherein the sound-insulating spacer is a rubber mat.

7. The paved surface of claim 6, wherein the number of the grooves on each of the floor boards is plural, and the plural grooves are arranged at the corners of each of the floor boards in a one-to-one correspondence.

8. The paved surface of claim 7, wherein the grooves are sector grooves, the vertex of each sector groove is coincided with the vertex of a plurality of vertex angles in a one-to-one correspondence manner, each sector groove comprises an arc-shaped side surface, and two sides of each arc-shaped side surface respectively extend towards two side surfaces intersected on the vertex angles and respectively penetrate through the two side surfaces.

9. The paved surface of any one of claims 1-8, wherein the front surface of the floor panel is further provided with an auxiliary groove, and one side of the auxiliary groove extends toward and through the side surface of the floor panel.

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