CN219908797U - Water conservancy river course slope protection brick - Google Patents

Abstract

The utility model relates to a water conservancy river channel slope protection brick which comprises a brick body, a spliced brick I and a spliced brick II. And two opposite ends of the brick body are respectively provided with a first splicing groove and a second splicing groove. The first splicing brick is provided with a first splicing strip matched with the first splicing groove and the first splicing strip is detachably spliced with the first splicing groove. The second splicing brick is provided with a second splicing strip matched with the second splicing groove, and the second splicing strip is detachably spliced with the second splicing groove. And the first splicing brick of the slope protection brick can be interlocked with the second splicing brick of the other slope protection brick through splicing. According to the water conservancy river channel slope protection brick, when the slope protection structure is paved, the splicing interlocking between the upper adjacent slope protection brick and the lower adjacent slope protection brick is realized through the first splicing brick and the second splicing brick, and after the slope protection structure is paved, the first splicing brick and the second splicing brick at the top end and the bottom end of the slope protection structure can be detached, so that the top and the bottom of the slope protection structure are neat, and attractive appearance is ensured.

Description

Water conservancy river course slope protection brick

Technical Field

The utility model relates to the technical field of hydraulic engineering, in particular to a water conservancy river channel slope protection brick.

Background

The hydraulic engineering is a basic engineering for the relationship of national life, and the construction of the river protection slope surface is used as an important component of the hydraulic engineering, and the quality of the hydraulic engineering can be ensured only by ensuring that the river protection structure is proper.

River course slope protection structure generally lays through the slope protection brick and constitutes, and traditional slope protection brick adopts cement to link up when laying more between the slope protection brick, and cement slope protection brick preparation takes time and takes time, and the cost is higher, is unfavorable for dismantling used repeatedly in the later stage, consequently adopts the interlock type to have the slope protection brick of interlocking structure to produce. For example, the patent with publication number CN218597081U discloses a slope protection brick, including interlocking structure, planting hole, guiding gutter and grabbing ground structure, interlocking structure makes slope protection brick be difficult for not hard up each other after laying, and whole steady is good. However, when the slope protection brick is paved, the top and the bottom of the slope protection structure are irregular, the appearance is affected, redundant parts are required to be cut, the cut parts cannot be used continuously, and the material is wasted.

Disclosure of Invention

Based on this, the slope protection brick that needs to adopt the chain structure at present is when laying the completion, can appear untidy condition at slope protection structure's top and bottom, influences pleasing to the eye, needs to cut unnecessary part, and the unable continuous use of part of cutting, causes the extravagant technical problem of material, provides a water conservancy river course slope protection brick.

The utility model provides a water conservancy river channel slope protection brick which comprises a brick body, wherein two opposite ends of the brick body are respectively provided with a first splicing groove and a second splicing groove; the revetment brick further comprises:

the splicing brick I is provided with a splicing strip I matched with the splicing groove I, and the splicing strip I is detachably spliced with the splicing groove I;

the second splicing brick is provided with a second splicing strip matched with the second splicing groove, and the second splicing strip is detachably spliced with the second splicing groove;

and the first splicing brick of the slope protection brick and the second splicing brick of the other slope protection brick can be interlocked through splicing.

In a preferred embodiment of the present utility model, the first splice groove and/or the second splice groove has an L-shaped cross section;

and/or one end of the first splicing groove and/or the second splicing groove extends to the side face of the brick body.

In a preferred embodiment of the present utility model, two ends of the first splicing brick far away from one side of the brick body are provided with first splicing blocks, and opposite sides of the first splicing blocks are provided with interlocking grooves;

a splicing block II is arranged on one side, far away from the brick body, of the splicing brick II, and interlocking blocks matched with the interlocking grooves are arranged at two ends of the splicing block II;

the two interlocking blocks of the slope protection brick can be respectively spliced with two interlocking grooves of the other slope protection brick to realize interlocking.

In a preferred embodiment of the present utility model, a distance between the first splice blocks is equal to a length of the second splice block, and a width of the first splice block is equal to a width of the second splice block.

In a preferred embodiment of the present utility model, the depth of the interlocking groove is equal to the thickness of the interlocking block, and the depth of the interlocking groove is smaller than the thickness of the first splicing block.

In a preferred embodiment of the utility model, the interlocking slot has a T-shaped cross section.

In a preferred embodiment of the utility model, two opposite ends of the top surface of the brick body are respectively sunken to form a first splicing groove and a second splicing groove, and one ends, close to each other, of the bottoms of the first splicing groove and the second splicing groove are respectively provided with the first splicing groove and the second splicing groove;

the first splicing brick and the second splicing brick are detachably spliced in the first splicing groove and the second splicing groove respectively, the top surfaces of the first splicing brick and the second splicing brick are in the same plane with the top surface of the brick body, and the first splicing brick and the second splicing brick are respectively attached to the two ends of the brick body.

In a preferred embodiment of the present utility model, the brick body is provided with a plurality of planting holes.

In a preferred embodiment of the present utility model, the top surfaces of the first splicing brick, the brick body and the second splicing brick are provided with a plurality of water guide grooves, the extending direction of the water guide grooves is consistent with the connecting line direction of the first splicing brick and the second splicing brick, and two ends of the water guide groove on the brick body are respectively connected with the water guide grooves on the first splicing brick and the second splicing brick in a one-to-one correspondence manner.

In a preferred embodiment of the utility model, the two opposite ends of the brick body are respectively provided with a snap block and a snap groove, and the shape of the snap block is matched with that of the snap groove; the engagement blocks of the slope protection bricks can be engaged and spliced with the engagement grooves of the other slope protection bricks.

Compared with the prior art, the utility model has the following beneficial effects:

1. when the water conservancy river channel slope protection brick is paved, the splicing interlocking between the upper adjacent slope protection brick and the lower adjacent slope protection brick is realized through the first splicing brick and the second splicing brick, and after the slope protection structure is paved, the first splicing brick and the second splicing brick at the top end and the bottom end of the slope protection structure can be detached, so that the top and the bottom of the slope protection structure are neat, and attractive appearance is ensured; and the detached first and second splicing bricks can be continuously used, so that the material utilization rate is improved.

2. When the water conservancy river channel slope protection brick is paved, the splicing between the upper adjacent slope protection brick and the lower adjacent slope protection brick is realized through the splicing brick I and the splicing brick II, so that the longitudinal interlocking stability of the slope protection structure is realized; the splicing between the left slope protection brick and the right slope protection brick is realized through the occlusion blocks and the occlusion grooves, the transverse interlocking stability of the slope protection structure is realized, the slope protection bricks are not easy to loosen after being paved, the slope protection bricks have good overall stability under various dynamic and static water flow conditions, the falling-off condition can not occur, and the service life is long.

3. The water conservancy river slope protection bricks are spliced to replace traditional cement connection, so that the slope protection structures are paved in the initial stage and removed and maintained in the later stage, the use of concrete is reduced, and the water conservancy river slope protection bricks are concise, attractive and environment-friendly and can be reused.

Drawings

Fig. 1 is a schematic structural diagram of a water conservancy river slope protection brick according to embodiment 1 of the present utility model;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a schematic view of the construction of the tile body of FIG. 1;

FIG. 4 is a schematic view of the construction of the first tile of FIG. 1;

FIG. 5 is a schematic view of a second tile of FIG. 1;

fig. 6 is a splicing state diagram of the water conservancy river course slope protection brick of fig. 1;

fig. 7 is a splicing state diagram of a water conservancy river slope protection brick provided in embodiment 2 of the present utility model.

Description of the drawings: 1. a brick body; 2. splicing the first bricks; 3. splicing bricks II; 4. a water guide groove; 11. a first splicing groove; 12. a second splicing groove; 13. a first splicing groove; 14. a second splicing groove; 15. planting holes; 16. a bite block; 17. a snap groove; 21. splicing the first strip; 22. splice one; 23. interlocking grooves; 31. splicing the first strip; 32. a second splicing block; 33. interlocking blocks.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1 and 2, the present embodiment provides a water conservancy river slope protection brick for paving an ecological slope protection structure, which includes a brick body 1, a first splicing brick 2 and a second splicing brick 3.

Referring to fig. 3, opposite ends of the top surface of the brick body 1 are respectively sunk to form a first splicing groove 13 and a second splicing groove 14, one ends, close to each other, of the bottoms of the first splicing groove 13 and the second splicing groove 14 are respectively provided with a first splicing groove 11 and a second splicing groove 12, and one ends of the first splicing groove 11 and the second splicing groove 12 extend to one side surface of the brick body 1. In this embodiment, the brick body 1 adopts a square structure, and the first splicing groove 11 and the second splicing groove 12 have L-shaped cross sections. Of course, in other embodiments, the brick body 1, the first splice groove 11, and the second splice groove 12 may have other structures.

The spliced brick I2 is detachably spliced in the spliced groove I13, and the thickness of the spliced brick I2 is equal to the depth of the spliced groove I13. Referring to fig. 4, a first splicing strip 21 matched with a first splicing groove 11 is arranged on one side of the first splicing brick 2 close to the brick body 1, and the first splicing strip 21 is detachably spliced in the first splicing groove 11. In this embodiment, the first splicing strip 21 and the first splicing brick 2 are integrally preformed, the first splicing strip 21 has an L-shaped cross section and is matched with the L-shape of the first splicing groove 11, when in splicing, the first splicing strip 21 is inserted from the opening of the first splicing groove 11 on the side surface of the brick body 1, and then the first splicing strip 21 is pushed inwards until the first splicing strip 21 abuts against the closed end of the first splicing groove 11, at this time, the first splicing brick 2 is also overlapped with the first splicing groove 13, and the top surface of the first splicing brick 2 and the top surface of the brick body 1 are in the same plane. The two ends of one side, far away from the brick body 1, of the spliced brick I2 are provided with spliced blocks I22, and the opposite sides of the two spliced blocks I22 are provided with interlocking grooves 23. In this embodiment, the two first splice blocks 22 are integrally prefabricated with the first splice block 2, the interlocking groove 23 has a T-shaped cross section, and the depth of the interlocking groove 23 is smaller than the thickness of the first splice block 22, and the thickness of the first splice block 22 is equal to the thickness of the brick body 1. Of course, in other embodiments, the interlocking slot 23 may be other structures.

The second splicing brick 3 is detachably spliced in the second splicing groove 14, and the thickness of the second splicing brick 3 is equal to the depth of the second splicing groove 14. Referring to fig. 5, a second splicing strip 31 matched with the second splicing groove 12 is arranged on one side of the second splicing brick 3, close to the brick body 1, and the second splicing strip 31 is detachably spliced in the second splicing groove 12. In this embodiment, the second splicing strip 31 and the second splicing brick 3 are integrally preformed, the second splicing strip 31 has an L-shaped cross section and is matched with the L-shape of the second splicing groove 12, when in splicing, the second splicing strip 31 is inserted from the opening of the second splicing groove 12 on the side surface of the brick body 1, and then the second splicing strip 31 is pushed inwards until the second splicing strip 31 abuts against the closed end of the second splicing groove 12, at this time, the second splicing brick 3 is also overlapped with the second splicing groove 14, and the top surface of the second splicing brick 3 and the top surface of the brick body 1 are in the same plane. And a second splicing block 32 is arranged on one side, far away from the brick body 1, of the second splicing block 3, the second splicing block 32 and the second splicing block 3 are integrally prefabricated and formed, the length of the second splicing block 32 is equal to the distance between the first splicing blocks 22, the width of the second splicing block 32 is equal to the width of the first splicing block 22, and the thickness of the second splicing block 32 is equal to the thickness of the brick body 1. In this embodiment, the two ends of the second splicing block 32 are both provided with an interlocking block 33, the interlocking block 33 has a T-shaped cross section and the T-shape is matched with the T-shape of the interlocking groove 23, and the thickness of the interlocking block 33 is equal to the depth of the interlocking groove 23.

Please combine fig. 6, when the water conservancy river channel revetment brick of this embodiment lays ecological revetment, the revetment brick realizes the interlocking through the concatenation of concatenation brick one 2 of its upper end and the concatenation of concatenation brick two 3 of another revetment brick that is located its top to realize the interlocking through the concatenation of concatenation brick two 3 of its lower extreme and the concatenation of concatenation brick one 2 of another revetment brick that is located its below. When the first splicing brick 2 and the second splicing brick 3 are spliced, the two interlocking blocks 33 of the second splicing brick 3 are respectively inserted into the two interlocking grooves 23 of the first splicing brick 2, so that the splicing can be completed. After the slope protection structure is paved, the first splicing bricks 2 and the second splicing bricks 3 at the top and the bottom of the slope protection structure can be detached, so that the top and the bottom of the slope protection structure are neat, and attractive appearance is ensured. Meanwhile, the splicing between the upper adjacent slope protection bricks and the lower adjacent slope protection bricks is realized through the first splicing brick 2 and the second splicing brick 3, so that the vertical interlocking stability of the slope protection structure is realized.

In order to achieve the transverse interlocking stability of the slope protection structure, in this embodiment, the two opposite ends of the brick body 1 may be respectively provided with a snap block 16 and a snap groove 17, the shape of the snap block 16 is matched with that of the snap groove 17, and the snap block 16 and the snap groove 17 have square structures. Of course, in other embodiments, the engagement blocks 16, 17 may have other configurations, such as T-shaped, L-shaped, etc. When the ecological slope protection is laid, the slope protection bricks are spliced with the biting grooves 17 of the other slope protection brick positioned on the right side of the slope protection bricks through the biting blocks 16, and are spliced with the biting blocks 16 of the other slope protection brick positioned on the left side of the slope protection bricks through the biting grooves 17, so that the interlocking is realized. Like this, this embodiment water conservancy river course slope protection brick is when laying the slope protection structure, realizes through splice brick one 2, splice brick two 3 that the vertical interlocking of slope protection structure is stable, realizes through interlock piece 16, interlock groove 17 that the horizontal interlocking of slope protection structure is stable to make difficult not hard up between the slope protection brick after laying, all have good overall stability under various dynamic, still water flow conditions, can not take place the condition that drops, long service life.

In this embodiment, a plurality of planting holes 15 are also formed in the brick body 1. Plants are planted through the planting holes 15, and the planting holes 15 are arranged to increase the planting amount of vegetation, so that the soil slope has better connection, support stability and integrity through plant roots, can beautify the environment, reduce water and soil loss and is not easy to landslide.

Example 2

This embodiment provides a water conservancy river course slope protection brick, and its difference with embodiment 1 lies in: referring to fig. 7, in the water conservancy river slope protection brick of the present embodiment, the top surfaces of the first splicing brick 2, the brick body 1 and the second splicing brick 3 are provided with a plurality of water guiding grooves 4, the extending direction of the water guiding grooves 4 is consistent with the connecting line direction of the first splicing brick 2 and the second splicing brick 3, and two ends of the water guiding groove 4 on the brick body 1 are respectively connected with the water guiding grooves 4 on the first splicing brick 2 and the second splicing brick 3 in a one-to-one correspondence manner. Because the water flow generally flows from top to bottom, the rainwater on the surface of the slope protection brick can be drained through the longitudinal water guide groove 4 arranged on the top surface of the slope protection brick, so that only part of rainwater enters the soil slope through the planting holes 15, and the damage of landslide and the like caused by excessive swelling of the soil slope is prevented.

It is noted that when an element is referred to as being "mounted to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "or/and" as used herein includes any and all combinations of one or more of the associated listed items.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. The water conservancy river channel slope protection brick comprises a brick body (1), and is characterized in that splicing grooves I (11) and splicing grooves II (12) are respectively formed in two opposite ends of the brick body (1); the revetment brick further comprises:

the splicing brick I (2) is provided with a splicing strip I (21) matched with the splicing groove I (11), and the splicing strip I (21) is detachably spliced with the splicing groove I (11);

the splicing brick II (3) is provided with a splicing strip II (31) matched with the splicing groove II (12), and the splicing strip II (31) is detachably spliced with the splicing groove II (12);

and the first splicing brick (2) of the slope protection brick and the second splicing brick (3) of the other slope protection brick can be interlocked through splicing.

2. The water conservancy river channel revetment brick according to claim 1, wherein the first splicing groove (11) and/or the second splicing groove (12) have an L-shaped cross section;

and/or one end of the first splicing groove (11) and/or the second splicing groove (12) extends to the side face of the brick body (1).

3. The water conservancy river channel slope protection brick according to claim 1, wherein the two ends of one side of the spliced brick (2) far away from the brick body (1) are provided with spliced blocks (22), and the opposite sides of the two spliced blocks (22) are provided with interlocking grooves (23);

a splicing block II (32) is arranged on one side, away from the brick body (1), of the splicing brick II (3), and interlocking blocks (33) matched with the interlocking grooves (23) are arranged at two ends of the splicing block II (32);

the two interlocking blocks (33) of the slope protection brick can be respectively spliced with the two interlocking grooves (23) of the other slope protection brick to realize interlocking.

4. A water conservancy river slope brick according to claim 3 and wherein the distance between two of said first splice blocks (22) is equal to the length of said second splice block (32) and the width of two of said first splice blocks (22) is equal to the width of said second splice block (32).

5. A water conservancy river slope brick according to claim 3 and wherein the depth of said interlocking groove (23) is equal to the thickness of said interlocking block (33) and the depth of said interlocking groove (23) is less than the thickness of said splice block one (22).

6. A water conservancy channel revetment brick according to claim 3, characterized in that the interlocking groove (23) has a T-shaped cross section.

7. The water conservancy river channel slope protection brick according to claim 3, wherein the opposite ends of the top surface of the brick body (1) are respectively sunken to form a first splicing groove (13) and a second splicing groove (14), and one ends, close to each other, of the bottoms of the first splicing groove (13) and the second splicing groove (14) are respectively provided with the first splicing groove (11) and the second splicing groove (12);

the first splicing brick (2) and the second splicing brick (3) are respectively and detachably spliced in the first splicing groove (13) and the second splicing groove (14), the top surfaces of the first splicing brick (2) and the second splicing brick (3) are in the same plane with the top surface of the brick body (1), and the first splicing block (22) and the second splicing block (32) are respectively attached to the two ends of the brick body (1).

8. The water conservancy river channel slope protection brick according to claim 1, characterized in that a plurality of planting holes (15) are formed in the brick body (1).

9. The water conservancy river channel slope protection brick of claim 3, wherein the top surfaces of the first spliced brick (2), the brick body (1) and the second spliced brick (3) are provided with a plurality of water guide grooves (4), the extending direction of the water guide grooves (4) is consistent with the connecting line direction of the first spliced brick (2) and the second spliced brick (3), and two ends of the water guide grooves (4) on the brick body (1) are respectively communicated with the water guide grooves (4) on the first spliced brick (2) and the second spliced brick (3) in a one-to-one correspondence manner.

10. The water conservancy river channel slope protection brick according to claim 1, wherein the other opposite ends of the brick body (1) are respectively provided with a biting block (16) and a biting groove (17), and the shape of the biting block (16) is matched with the shape of the biting groove (17); the engagement blocks (16) of the slope protection bricks can be engaged and spliced with the engagement grooves (17) of the other slope protection bricks.