CN208279960U - A kind of assembled building block - Google Patents

Abstract

The utility model relates to building material technical fields, more particularly to a kind of assembled building block, it include: permeable surface layer and supporting layer, supporting layer is multiedge cylinder, the outer profile of its cross section is in regular hexagon, and multiple the first apertures through the setting of its upper and lower surface are formed on supporting layer, and then pervious function both may be implemented by the first aperture, cooperate after completion of installation with waterproof ground simultaneously and realizes water storage function, the first aperture that rainwater can be entered in supporting layer by permeable surface layer in this way stores, when water is few, the water of storage can pass through evaporation, road is allowed to keep moist state, road is set to be not easy fugitive dust, and increase the specific heat of road, reduce surface temperature, alleviate tropical island effect, and supporting layer is multiedge cylinder, the outer profile of its cross section is in regular hexagon, and then in road assembly, supporting layer it Between adaptation it is high, flatness is higher, can effectively cope with the differential settlement of ground, keeps the stabilization of structure.

Description

A kind of assembled building block

Technical field

The utility model relates to technical field of building construction, and in particular to a kind of assembled building block.

Background technique

Currently, in Process of Urbanization Construction, traditional pitch, concrete road surface due to water permeability it is weak, the rainwater in rainfall Lower infiltration is difficult, will cause surface gathered water, while it is larger to concentrate the rainwater for flowing into drainage pipeline that can also cause to the drainage system in city Burden, while also influence underground water supply.

In view of the above-mentioned problems, a kind of permeable surface layer in the prior art includes permeable surface layer and below permeable surface layer Support construction, wherein permeable surface layer is formed using the silica sand in desert by special process processing, support construction is permeable Square structure is made in concrete, and ponding is penetrated into lower section by the permeable gap on permeable surface layer when raining, then passes through support Water flow is penetrated into soil or drainage system by the permeable effect of structure.Although the permeable surface layer solves the problems, such as surface gathered water, but In actual use, road construction is that scene is mated formation, it is found that when the uniformity of brick body is easy to be piled up by construction personnel Error influence, road surfacing required precision itself is just low in addition, causes the flatness of mating formation of rectangular brick body poor, quality is not easy Control, road surface is very easy to the phenomenon that alice occur after long-term pressure-bearing, or the inadequate problem of intensity of support construction occurs, And then leading to permeable crack of surface layer, brick body is damaged.

Utility model content

The main purpose of the utility model is to provide a kind of assembled building blocks, to solve assembled building block in the prior art Support construction intensity it is inadequate, crushing easily causes brick body to be damaged, while the problem of poor flatness.

To achieve the above object, it includes: permeable surface layer that the utility model, which provides a kind of assembled building block,；Supporting layer, if In the lower section on the permeable surface layer, for providing support to the permeable surface layer, wherein the supporting layer is multiedge cylinder, The outer profile of cross section is in regular hexagon, and forms multiple first through the setting of its upper and lower surface on the supporting layer and open Hole.

It should be noted that the first aperture on supporting layer is up and down, so that the water energy through permeable surface layer is enough from support The upper layer of layer penetrates into lower layer, and so as to realize pervious function, and assembled building block is placed in fluid-tight ground, thus the One aperture with waterproof ground by cooperating, it can be achieved that water storage function, the first aperture as needed can carry out permeable or carry out water Storage.

Further, the cross section of first aperture is regular hexagon.

Further, the cross section of first aperture is circle.

Further, the cross section of first aperture is square.

Further, the cross section of first aperture is diamond shape.

Further, the cross section of first aperture is triangle.

Further, first aperture is evenly arranged on the supporting layer centered on the axis of the supporting layer.

Further, the supporting layer also forms several second apertures, and second aperture is along the side of the supporting layer Edge circumferentially or second aperture on the supporting layer with the first aperture arranged for interval.

Further, the cross section of second aperture is the isosceles trapezoid at the edge of the supporting layer circumferentially.

Further, the cross section of second aperture is spaced apart with first aperture on the supporting layer Hexagon.

Further, first aperture and/or second aperture are arranged along the axial direction of the supporting layer.

Further, the cross-sectional area of first aperture and the cross-sectional area ratio of the supporting layer are in 1:2 to 1:50 Between.

Further, the cross-sectional area of first aperture and the cross-sectional area ratio of the supporting layer are in 1:3 to 1:20 Between.

Further, the pore diameter range of first aperture is in 10mm between 800mm.

Further, the pore diameter range of first aperture is in 60mm between 180mm.

Further, the spacing between adjacent two first apertures is in 10mm between 150mm.

Further, the spacing between first aperture is in 20mm between 60mm.

Further, the permeable surface layer is the permeable surface layer of sand base, and the permeable hole in the permeable surface layer is by the sand Gap in the permeable surface layer of base between particles of aggregates is formed.

Further, the assembled building block is layed on non-permeable matrix below, first aperture with it is described Non- permeable base mate forms storage cavity.

Further, reinforcing rib structure is provided at least one axial end face of the supporting layer.

Further, the reinforcing rib structure includes positive six side being circumferentially arranged along the edge of the regular hexagon supporting layer Shape reinforcing rib.

Further, the assembled building block further include the two side walls that are oppositely arranged in the two neighboring supporting layer it Between the position limiting structure that is arranged, the position limiting structure is used to keep to have gap between the side wall of the two neighboring supporting layer.

Further, the position limiting structure includes being set on the side wall of the supporting layer, and along the axis of the supporting layer To at least one limit rib of extension.

Further, the supporting layer is made of seepy material.

It should be noted that supporting layer is made in addition to seepy material, as needed, such as need to carry out the storage of water by aperture It deposits, is also possible to be made of impermeable material or hydrophobic material.

Technical solutions of the utility model have the advantages that

1. in assembled building block provided by the utility model, the supporting layer for providing permeable surface layer support is polygon prism Body, the outer profile of cross section are in regular hexagon, and form multiple first through the setting of its upper and lower surface on supporting layer and open Hole, and then pervious function both may be implemented in the assembled building block of the utility model, while after completion of installation, by non-with other For example waterproof ground cooperation of permeable matrix realizes that water storage function, such road rain water can be entered in supporting layer by permeable surface layer First aperture stores, and when water is few, the water of storage be kept moist state by can be allowed road, be made by evaporation Road is not easy fugitive dust, and increases the specific heat of road, reduces surface temperature, alleviates tropical island effect, on this basis, for pair The supporting layer that permeable surface layer provides support is multiedge cylinder, and the outer profile of cross section is in regular hexagon, and then is assembled in road When, the adaptation between supporting layer is high, and flatness is higher, can effectively cope with the differential settlement of ground, keep structure Stablize, while opening up the support construction for forming honeycomb after multiple apertures, the dosage of material is few, the space of water guide and water storage compared with Greatly, while the intensity of supporting layer is improved, is less prone to the problem of not enough leading to permeable crack of surface layer because of the intensity of supporting layer.

2. in assembled building block provided by the utility model, the cross section of the first aperture is regular hexagon, regular hexagon The outer profile of first aperture combination regular hexagon, and then stable honeycomb supporting structure can be formed, utilize honey comb structure The structure of stability, assembled building block is more stable, improves the structural strength of supporting layer, enhances the support strength on road surface, Extend the Acceptable life on road surface.

3. in assembled building block provided by the utility model, the first aperture is centered on the axis of supporting layer on supporting layer It is evenly arranged, is conducive to the uniformity for enhancing supporting layer structure, improves the stability of supporting layer.

4. in assembled building block provided by the utility model, supporting layer also forms several second apertures, the second aperture edge The edge of supporting layer circumferentially or the second aperture on supporting layer with the first aperture arranged for interval, and then complete first The cloth of aperture postpones, and between the first aperture and the place at supporting layer edge has remaining space, can select the according to remaining space Two apertures are arranged in the remaining space.

5. in assembled building block provided by the utility model, the first aperture and/or the second aperture are set along the axial direction of supporting layer It sets, and then the first aperture and the second aperture of portion can quickly be realized permeable, the honeycomb structure being formed simultaneously is more stable.

6. in assembled building block provided by the utility model, the cross-sectional area of the first aperture and the cross-sectional area ratio of supporting layer Example is in 1:2 between 1:20, and the cross-sectional area of the first aperture is bigger, and the permeable efficiency of the first aperture or the amount of water storage are bigger, but The structure of supporter can reduce accordingly, and the cross-sectional area of the first aperture and the cross-sectional area ratio of supporting layer are in 1:2 to 1:20 Between can preferably between the support strength of balanced support layer, water permeability and water storage performance relationship.

7. in assembled building block provided by the utility model, the pore diameter range of the first aperture in 60mm between 180mm, both It can guarantee the smooth circulation of rainwater, and can guarantee structural strength.

8. in assembled building block provided by the utility model, spacing between the first aperture in 20mm between 60mm, into And can preferably between the support strength of balanced support layer, water permeability and water storage performance relationship.

9. supporting layer is made in assembled building block provided by the utility model of seepy material, and then road surface can be improved Infiltration ability, reduce surface gathered water.

10. in assembled building block provided by the utility model, being provided with reinforcement at least one axial end face of supporting layer Muscle structure, and then be conducive to increase the self structure intensity of supporting layer, the bearing capacity of supporting layer is improved, and then further extend The Acceptable life on road surface.

11. in assembled building block provided by the utility model, the assembled building block further includes in the two neighboring branch The position limiting structure being arranged between the two side walls that support layer is oppositely arranged, position limiting structure is for keeping the two neighboring supporting layer Between side wall have gap, and then to building block carry out pile up assembly when, position limiting structure can guarantee two neighboring supporting layer it Between retain certain interval, convenient for filling bonding or reinforce material, by range estimation or experience reserving gaps when without artificial piling up, The precision for improving the regularity and road surfacing piled up increases the pavement quality after building block is laid with, convenient and practical.

Detailed description of the invention

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, it is also possible to obtain other drawings based on these drawings.In the accompanying drawings:

Fig. 1 is the schematic perspective view of assembled building block in the utility model first embodiment；

Fig. 2 is the present invention looks up structural representation of assembled building block shown in Fig. 1；

Fig. 3 is the present invention looks up structural representation of assembled building block in another embodiment of the utility model；

Fig. 4 is the present invention looks up structural representation of assembled building block in another embodiment of the utility model；

Fig. 5 is the present invention looks up structural representation of assembled building block in another embodiment of the utility model；

Fig. 6 is the present invention looks up structural representation of assembled building block in another embodiment of the utility model；

Fig. 7 is the present invention looks up structural representation of assembled building block in another embodiment of the utility model；

Fig. 8 is the present invention looks up structural representation of assembled building block in another embodiment of the utility model；

Fig. 9 is the schematic perspective view of supporting layer in assembled building block in another embodiment of the utility model.

10, permeable surface layer；

30, supporting layer；31, the first aperture；33, the second aperture.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical Novel protected range.

It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

Embodiment 1

As shown in Figure 1 to Figure 3, assembled building block provided in this embodiment includes permeable surface layer 10 and two layers of supporting layer 30. Permeable surface layer 10, which has, can be used for permeable permeable hole；Supporting layer 30 is set to the lower section on permeable surface layer 10, for permeable table Layer 10 provides support, wherein and the supporting layer 30 in the present embodiment is multiedge cylinder, and the outer profile of cross section is in regular hexagon, And multiple the first apertures 31 through the setting of its upper and lower surface are formed on supporting layer 30, so that the assembled in the present embodiment is built In block, due to forming multiple first aperture 31 through the setting of its upper and lower surface, and then the utility model on supporting layer 30 Pervious function both may be implemented in assembled building block, while after completion of installation, and the first aperture 31 on supporting layer 30 can be with laying It is formed by cooperating with for example waterproof ground of non-permeable matrix for storing water in non-permeable base mate below Storage cavity realizes that water storage function, such road rain water can enter the first aperture 31 in supporting layer 30 by permeable surface layer 10 It stores, when water is few, the water of storage can allow road to keep moist state, road is made to be not easy to raise by evaporation Dirt, and the specific heat of road is increased, surface temperature is reduced, tropical island effect is alleviated, on this basis, for permeable surface layer 10 supporting layers 30 for providing support are multiedge cylinder, and the outer profile of cross section is in regular hexagon, and then in road assembly, branch The adaptation supportted between layer 30 is high, and flatness is higher, can effectively cope with the differential settlement of ground, keeps the steady of structure It is fixed, while the support construction of formation honeycomb after multiple apertures is opened up, the dosage of material is few, and the space of water guide and water storage is larger, The intensity for improving supporting layer 30 simultaneously is less prone to because the intensity of supporting layer 30 not enough leads to asking for the permeable cracking of surface layer 10 Topic.Meanwhile after the water by seeping under permeable surface layer 10 reaches supporting layer 30, the discharge structures of other connection apertures are cooperated via aperture Elicitation effect is played, guidance ponding discharge can enhance the anti-ponding ability on road surface, alleviate urban waterlogging.

The cross section of the first aperture 31 is regular hexagon in the present embodiment, and the first aperture 31 of regular hexagon combines positive six side The outer profile of shape, and then stable honeycomb supporting structure can be formed, utilize the stability of honey comb structure, assembled building block Structure it is more stable, improve supporting layer 30 structural strength, enhance the support strength on road surface, extend effective use on road surface Service life.

As shown in fig. 6, the alternative embodiments as embodiment 1, the cross section of the first aperture 31 is circle, in conjunction with just The outer profile of hexagon equally can be improved the stability of assembled building block structure, improve the structural strength of supporting layer 30, enhancing The support strength on road surface extends the Acceptable life on road surface.

As shown in fig. 7, the alternative embodiments as embodiment 1, the cross section of the first aperture 31 is square, in conjunction with The outer profile of regular hexagon equally can be improved the stability of assembled building block structure, improve the structural strength of supporting layer 30, increase The support strength on strong road surface, extends the Acceptable life on road surface.

As shown in figure 8, the alternative embodiments as embodiment 1, the cross section of the first aperture 31 is diamond shape, in conjunction with just The outer profile of hexagon equally can be improved the stability of assembled building block structure, improve the structural strength of supporting layer 30, enhancing The support strength on road surface extends the Acceptable life on road surface.

As shown in figure 9, the alternative embodiments as embodiment 1, the cross section of the first aperture 31 is triangle, in conjunction with The outer profile of regular hexagon equally can be improved the stability of assembled building block structure, improve the structural strength of supporting layer 30, increase The support strength on strong road surface, extends the Acceptable life on road surface.

Preferably, the first aperture 31 in the present embodiment is uniform on supporting layer 30 centered on the axis of supporting layer 30 Cloth is conducive to the uniformity for enhancing 30 structure of supporting layer in this way, improves the stability of supporting layer 30, and assembled building block is less prone to The problems such as sinking.

Specifically, the cross section of the second aperture 33 in the present embodiment is the isosceles at the edge of supporting layer 30 circumferentially Trapezoidal, in conjunction with the first aperture 31 for being in regular hexagon, symmetrically and evenly, while entire shape is more beautiful for total.

Specifically, perhaps the second aperture 33 or the first aperture 31 and the second aperture of the first aperture 31 in the present embodiment 33 along supporting layer 30 axial direction setting, and then the first aperture 31 and the second aperture of portion 33 can quickly realize it is permeable, simultaneously The honeycomb structure of formation is more stable.

Specifically, the cross-sectional area ratio of the cross-sectional area and the supporting layer 30 of the first aperture 31 1:2 to 1:50 it Between.

Preferably, the cross-sectional area ratio of the cross-sectional area and supporting layer 30 of the first aperture 31 in 1:2 between 1:20, by Bigger in the cross-sectional area of the first aperture 31, the permeable efficiency of the first aperture 31 or the amount of water storage are bigger, but the structure of supporter It can reduce accordingly, the cross-sectional area ratio of the cross-sectional area of the first aperture 31 and supporting layer 30 is in 1:2 to can be between 1:20 Relationship preferably between the support strength of balanced support layer 30, water permeability and water storage performance, first in the present embodiment The cross-sectional area of aperture 31 and the cross-sectional area ratio of supporting layer 30 are in 1:4.

As the alternative embodiments of embodiment one, the cross-sectional area of the cross-sectional area and supporting layer of the first water-guiding hole Ratio is 1:2.

As the alternative embodiments of embodiment one, the cross-sectional area of the cross-sectional area and supporting layer of the first water-guiding hole Ratio is 1:5.

As the alternative embodiments of embodiment one, the cross-sectional area of the cross-sectional area and supporting layer of the first water-guiding hole Ratio is 1:10.

As the alternative embodiments of embodiment one, the cross-sectional area of the cross-sectional area and supporting layer of the first water-guiding hole Ratio is 1:50.

Specifically, the pore diameter range of the first aperture 31 is in 10mm between 800mm.

Preferably, the pore diameter range of the first aperture 31 can either guarantee the smooth of rainwater in 60mm between 180mm in this way Circulation, and can guarantee structural strength.

As the alternative embodiments of embodiment one, the aperture of the first water-guiding hole is 10mm.

As the alternative embodiments of embodiment one, the aperture of the first water-guiding hole is 45mm.

As the alternative embodiments of embodiment one, the aperture of the first water-guiding hole is 60mm.

As the alternative embodiments of embodiment one, the aperture of the first water-guiding hole is 85mm.

As the alternative embodiments of embodiment one, the aperture of the first water-guiding hole is 140mm.

As the alternative embodiments of embodiment one, the aperture of the first water-guiding hole is 180mm.

As the alternative embodiments of embodiment one, the aperture of the first water-guiding hole is 260mm.

As the alternative embodiments of embodiment one, the aperture of the first water-guiding hole is 340mm.

As the alternative embodiments of embodiment one, the aperture of the first water-guiding hole is 450mm.

As the alternative embodiments of embodiment one, the aperture of the first water-guiding hole is 800mm.

Specifically, the spacing between adjacent two first apertures 31 is in 10mm between 150mm.

Preferably, the spacing between adjacent two first aperture 31 and then can be balanced preferably in 20mm between 60mm Relationship between the support strength of supporting layer 30, water permeability and water storage performance.

As the alternative embodiments of embodiment one, the pitch of holes between the first water-guiding hole is 10mm.

As the alternative embodiments of embodiment one, the pitch of holes between the first water-guiding hole is 37mm.

As the alternative embodiments of embodiment one, the pitch of holes between the first water-guiding hole is 40mm.

As the alternative embodiments of embodiment one, the pitch of holes between the first water-guiding hole is 60mm.

As the alternative embodiments of embodiment one, the pitch of holes between the first water-guiding hole is 80mm.

As the alternative embodiments of embodiment one, the pitch of holes between the first water-guiding hole is 100mm.

As the alternative embodiments of embodiment one, the pitch of holes between the first water-guiding hole is 120mm.

As the alternative embodiments of embodiment one, the pitch of holes between the first water-guiding hole is 150mm.

Specifically, permeable surface layer 10 is the permeable surface layer 10 of sand base, and the permeable hole in permeable surface layer 10 is by the permeable table of sand base Gap in layer 10 between particles of aggregates is formed.

Supporting layer 30 is made of seepy material, certainly, as needed, such as needs to carry out the storage of water by aperture, It can be and be made of impermeable material or hydrophobic material etc..

As shown in figure 4, the alternative embodiments as embodiment 1, six sides that are positive all are opened up on the surface of supporter Shape.

As shown in figure 5, the alternative embodiments as embodiment 1, the cross section of the second aperture 33 is in supporting layer 30 The upper and spaced apart hexagon of the first aperture 31.

Preferably, reinforcing rib structure, such as the axis in supporting layer are provided at least one axial end face of supporting layer 30 It is provided with reinforcing rib structure in both ends of the surface or on the upper axial end face of supporting layer or the lower axial end face of supporting layer, into And be conducive to increase the self structure intensity of supporting layer, the bearing capacity of supporting layer is improved, and then further extend having for road surface Imitate service life.

Specifically, the reinforcing rib structure includes positive six side being circumferentially arranged along the edge of the regular hexagon supporting layer 30 Shape reinforcing rib.

Preferably, assembled building block further includes being arranged between the two side walls that two neighboring supporting layer 30 is oppositely arranged Position limiting structure, position limiting structure are used to keep to have gap between the side wall of the two neighboring supporting layer 30, and then to building block Carry out pile up assembly when, position limiting structure can guarantee to retain certain interval between two neighboring supporting layer, convenient for filling bonding or Person reinforces material, when without artificial piling up by range estimation or experience reserving gaps, improves the regularity and road surfacing of stacking Precision increases the pavement quality after building block is laid with, convenient and practical.

Specifically, position limiting structure includes being set on the side wall of the supporting layer 30, and along the axial direction of the supporting layer 30 At least one limit rib extended, such as interval setting limit rib realizes limit on the side wall of hexagon brick body, and be spaced and set Limit rib is set, relative to limit rib is respectively provided on each side wall, while realizing limit effect, position limiting structure can be reduced Quantity.

It is, of course, understood that realize limited between supporting layer 30 and supporting layer 30 in addition to may be used also using limit rib To be limit salient point etc., limit purpose equally can be realized, which also should be within the protection scope of the present utility model.

Obviously, the above embodiments are merely examples for clarifying the description, and does not limit the embodiments.It is right For those of ordinary skill in the art, can also make on the basis of the above description it is other it is various forms of variation or It changes.There is no necessity and possibility to exhaust all the enbodiments.And it is extended from this it is obvious variation or It changes among the protection scope created still in the utility model.

Claims (10)

1. a kind of assembled building block characterized by comprising

Permeable surface layer (10)；

Supporting layer (30) is set to the lower section of the permeable surface layer (10), for providing support to the permeable surface layer (10), In, the supporting layer (30) is multiedge cylinder, and the outer profile of cross section is in regular hexagon, and is formed on the supporting layer (30) There are multiple the first apertures (31) through the setting of its upper and lower surface.

2. assembled building block according to claim 1, which is characterized in that the cross section of first aperture (31) is positive six Side shape.

3. assembled building block according to claim 1, which is characterized in that the cross section of first aperture (31) is circle Shape.

4. assembled building block according to claim 1, which is characterized in that the cross section of first aperture (31) is pros Shape.

5. assembled building block according to claim 1, which is characterized in that the cross section of first aperture (31) is water chestnut Shape.

6. assembled building block according to claim 1, which is characterized in that the cross section of first aperture (31) is triangle Shape.

7. assembled building block according to claim 2, which is characterized in that first aperture (31) is with the supporting layer (30) it is evenly arranged on the supporting layer (30) centered on axis.

8. assembled building block according to claim 2, which is characterized in that the supporting layer (30) also forms several second Aperture (33), second aperture (33) along the edge of the supporting layer (30) circumferentially or second aperture (33) On the supporting layer (30) with the first aperture (31) arranged for interval.

9. assembled building block according to claim 8, which is characterized in that the cross section of second aperture (33) is in institute State the isosceles trapezoid of the edge of supporting layer (30) circumferentially.

10. assembled building block according to claim 8, which is characterized in that the cross section of second aperture (33) be On the supporting layer (30) with the spaced apart hexagon of first aperture (31).