CN117127557A - Customizable type interlocking ecological slope protection brick and application thereof - Google Patents

Abstract

The application relates to a customizable interlocking ecological slope protection brick and application thereof, wherein the brick comprises a rectangular brick body, two upper connectors and two lower connectors, and a planting hole is formed in the middle of the brick body in a penetrating manner; the upper connector and the lower connector on the other brick body are spliced to form a tenon inserting body, and a tenon inserting groove which is in splicing fit with the tenon inserting body is enclosed between the upper connector and the lower connector on the same side of the same brick body; the brick body runs through on planting hole pore wall and has seted up the lockhole that sets up along brick body width direction, and the lockhole is located brick body length direction middle part, wears to be equipped with the lockpin in the lockhole, and the lockpin stretches into the part in the mortice and locks the mortice body that is located in the mortice. According to the application, after the upper connector and the lower connector are spliced, the joggling of the mortice and tenon inserting grooves can be realized, and the mortice and tenon inserting grooves are locked by virtue of the lock pin, so that the movement along the thickness direction of the brick body can be avoided, and the phenomenon that the local brick body sinks and falls off when a side slope subsides can be effectively avoided.

Description

Customizable type interlocking ecological slope protection brick and application thereof

Technical Field

The application relates to the technical field of slope protection bricks, in particular to a customizable type interlocking ecological slope protection brick and application thereof.

Background

The method is characterized in that the method is one of countries with the largest number of reservoirs in the world, the blowing range of the reservoirs is long, the banks are subjected to frequent impact of wind waves and traveling waves, and the bank protection function is to protect the exposed banks from deformation and collapse caused by washing, abrasion and carrying. In reservoirs in northern areas of China, the problems of frost heaving of soil bodies, frost thawing damage of slope protection and the like are extremely easy to occur under the action of water due to cold weather in winter and long duration time. Frost heaving of the soil body can damage the rigid revetment; the revetment can generate damages such as cracking and denudation under the freeze thawing action, so that the service function and the operation safety of the structure are affected, and a large amount of maintenance cost can be generated. The revetment formed by the interlocking revetment bricks is not only a flexible structure, but also can further strengthen the stability of the revetment by using plants, and is an ideal form of reservoir revetment.

The Chinese patent with publication number CN105756016A proposes an energy dissipation anti-ice pushing interlocking brick slope protection structure, which comprises a plurality of interlocking bricks, wherein four groups of dovetail grooves are formed on two sides of the width of a brick body of each interlocking brick; the first dovetail slot includes a first dovetail and a first dovetail groove; the second, third and fourth dovetail grooves have the same structure; the first and third dovetail grooves are symmetrically arranged in the width direction; the second and fourth dovetail slots are identical; the first dovetail groove and the second dovetail groove are symmetrically arranged on the central axis of the brick body; the third and fourth dovetail slots are identical; the wedge-shaped tenons point to the central axis; the first dovetail groove and the fourth dovetail groove are corresponding and are in interlocking hinge joint; the second dovetail groove and the third dovetail groove are corresponding and are in interlocking hinge joint; each brick body is in interlocking hinge joint with four nearby brick bodies; grooves are respectively arranged at the edges of the two sides of the length of the brick body, and a connecting hole is formed between the grooves and the adjacent brick body; the brick body is positioned at the inner side of each groove and is respectively provided with an energy dissipation ice breaking pile, and the brick body is provided with brick holes. The application has the advantages of scouring resistance, good overall stability, good ecological effect and good energy dissipation and ice pushing resistance effects.

The related art in the above has the following drawbacks: when the interlocking bricks are assembled, a plurality of interlocking bricks can be assembled into a whole, but when the slope is settled or the river wave is impacted, the local interlocking bricks can still be separated from the interlocking state along the direction vertical to the brick surface, so that the whole protection effect is affected.

Disclosure of Invention

In order to solve the problem that the interlocking bricks can still fall off along the vertical direction of the brick surface after being assembled, the application provides a customizable interlocking ecological slope protection brick and application thereof.

The customizable type interlocking ecological slope protection brick provided by the first aspect of the application adopts the following technical scheme:

the customizable interlocking ecological slope protection brick comprises a rectangular brick body, two upper connectors and two lower connectors, wherein the two upper connectors and the two lower connectors are arranged at four corners of the brick body, the upper connectors and the lower connectors are respectively arranged at two ends of the brick body in the length direction, and planting holes are formed in the middle of the brick body in a penetrating manner;

the upper connector and the lower connector on the other brick body are spliced to form a tenon inserting body, and a tenon inserting groove which is in plug-in fit with the tenon inserting body is enclosed between the upper connector and the lower connector on the same side of the same brick body;

the brick body runs through on the planting hole pore wall and has seted up the edge the lockhole that the brick body width direction set up, the lockhole is located the middle part in the brick body length direction, wear to be equipped with the lockpin in the lockhole, the lockpin stretches into to in the mortice part locks to be located in the mortice.

Further, the upper connector comprises an inverted L-shaped upper buckling block with a horizontal section being flush with the upper end face of the brick body, and the lower connector comprises an L-shaped lower buckling block with a horizontal section being flush with the lower end face of the brick body; the vertical section of the upper buckling block and the vertical section of the lower buckling block jointly enclose to form the mortice, and the mortice is a dovetail groove.

Further, a first slot is formed in the side wall of the corner end of the vertical section of the lower buckling block, the first slot is communicated with the straight section of the lower buckling block, and a first inserting block which is in inserting fit with the first slot is fixedly connected to the free end of the horizontal section of the upper buckling block;

a second slot is formed in the side wall of the corner end of the vertical section of the upper buckling block, the second slot is communicated with the straight section of the upper buckling block, and a second inserting block which is in inserting fit with the second slot is fixedly connected to the free end of the horizontal section of the lower buckling block;

after the first plug block is completely inserted into the first slot and the second plug block is completely inserted into the second slot, a lock cavity for the lock pin to be inserted is formed between one side, away from the second plug block, of the first plug block.

Still further, chamfer angles are provided at the notches of the first slot and the second slot.

Further, the lock pin has a reinforcement embedded therein along a length thereof.

Further, one end of the lock pin, which is positioned in the planting hole, is provided with a dismounting structure which is convenient for taking out the lock pin.

The application of the customizable type interlocking ecological slope protection brick provided by the second aspect of the application adopts the following technical scheme:

the application of the customizable type interlocking ecological slope protection brick is based on the customizable type interlocking ecological slope protection brick, and comprises the following steps:

arranging a plurality of brick bodies in sequence along the length direction of the brick bodies, embedding the upper connector of the next brick body on the lower connector of the previous brick body, sliding the upper connector and the lower connector which are adjacent to each other to form the tenon body, and repeatedly assembling the next brick body until the longitudinal plurality of brick bodies are assembled to form a longitudinal group;

sequentially splicing the longitudinal groups, and enabling a plurality of tenon bodies in one longitudinal group to be embedded into a plurality of tenon grooves in the other adjacent longitudinal group one by one;

and inserting the lock pin into the adjacent tenon inserting bodies in the planting holes of the brick body to lock.

In summary, the beneficial technical effects of the application are as follows:

1. after the splicing of the plurality of brick bodies is completed through the upper connector and the lower connector on the brick bodies, a lock pin is inserted into the lock hole through a planting hole of each brick body, and the lock pin extends into a mortice on the side wall of each brick body so as to lock the mortice formed by combining two adjacent brick bodies which are longitudinally arranged; that is, any one brick body can lock the other four brick bodies adjacent to the four corners through two lock pins on two lock holes of the brick body, so that the five brick bodies form a whole and can not move along the thickness direction of the brick body, and therefore, the phenomena of local brick body sinking and falling caused by slope settlement can be effectively avoided;

2. when a plurality of bricks are longitudinally spliced, an upper buckling block of a next brick is lapped on a lower buckling block of an upper brick, then the next brick is pushed to enable a first inserting block to be inserted into a first inserting groove, a second inserting block is inserted into a second inserting groove, at the moment, displacement in the thickness and width directions of the bricks cannot occur to two adjacent bricks, and a lock cavity is formed between the first inserting block and the second inserting block, so that when a lock pin is inserted, the two adjacent bricks cannot displace in the length direction of the bricks, a plurality of spliced bricks can be completely locked, even if a slope is subjected to larger-area sedimentation and collapse, the spliced interlocking bricks still have good protection and support effects, and the application scene of the interlocking bricks is wider.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of the construction of two bricks according to the embodiment of the present application;

FIG. 3 is a schematic view of the construction of a plurality of bricks according to an embodiment of the present application.

Reference numerals illustrate:

1. a brick body;

2. an upper connector; 21. a buckling block is arranged; 22. a first plug; 23. a second slot;

3. a lower connector; 31. a lower buckling block; 32. a first slot; 33. a second insert block;

41. planting holes; 42. a lock hole;

51. a tenon inserting body; 52. a mortice slot;

61. a locking pin; 611. disassembling the structure; 62. a lock cavity.

Detailed Description

The following description of the embodiments of the present application will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the application are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The embodiment of the application discloses a customizable type interlocking ecological slope protection brick. Referring to fig. 1, 2 and 3, a customizable interlocking ecological slope protection brick comprises a rectangular brick body 1, two upper connectors 2 and two lower connectors 3 arranged at four corners of the brick body 1, wherein the upper connectors 2 and the lower connectors 3 are arranged on the side edges of two ends of the brick body 1 in a split manner in the length direction, the upper connectors 2 and the lower connectors 3 are integrally formed with the brick body 1, the main body parts of the upper connectors 2 and the lower connectors 3 are arranged with the brick body 1 in equal thickness, and the upper connectors 2 and the lower connectors 3 are arranged protruding out of the end faces of the brick body 1 in the length direction; the middle part of the brick body 1 is provided with planting holes 41 in a penetrating way, and in other feasible embodiments, more planting holes 41 can be further arranged on the brick body 1.

The upper connector 2 and the lower connector 3 on the other brick body 1 are spliced to form a tenon inserting body 51, and a tenon inserting groove 52 which is in plug-in fit with the tenon inserting body 51 is enclosed between the upper connector 2 and the lower connector 3 on the same side of the same brick body 1; the brick body 1 is provided with a lock hole 42 arranged along the width direction of the brick body 1 in a penetrating way on the wall of the planting hole 41, the lock hole 42 is positioned at the middle part of the brick body 1 in the length direction, the lock hole 42 is provided with a lock pin 61 in a penetrating way, and the part of the lock pin 61 extending into the mortice 52 locks the mortice 51 positioned in the mortice 52.

After the plurality of brick bodies 1 are assembled on the slope, the plurality of brick bodies 1 along the length direction of the brick bodies 1 form the tenon inserting bodies 51 through the upper connecting bodies 2 and the lower connecting bodies 3 so as to realize the connection of the adjacent two longitudinal brick bodies 1, and simultaneously, the tenon inserting grooves 52 which are in splicing fit with the tenon inserting bodies 51 can be formed between the adjacent two tenon inserting bodies 51 positioned at the side edges of the brick bodies 1; therefore, after a plurality of longitudinally connected bricks 1 are further arranged on the sides of the longitudinally connected bricks 1, the mortises 51 and mortises 52 on the two groups of longitudinally connected bricks 1 can be embedded and connected one by one to realize seamless assembly of the bricks 1, and the bricks 1 can be connected into a tightly connected whole to effectively protect the side slope.

More importantly, after the bricks 1 are spliced, the lock pins 61 are inserted into the lock holes 42 through the planting holes 41 of the bricks 1, and the lock pins 61 extend into the mortises 52 on the side walls of the bricks 1 so as to lock the mortises 51 formed by combining two adjacent bricks 1 arranged longitudinally; that is, any one brick body 1 can lock the other four brick bodies 1 adjacent to the four corners thereof by two lock pins 61 on two lock holes 42 thereof, so that the five brick bodies 1 form a whole and cannot move along the thickness direction of the brick body 1, thereby effectively avoiding the phenomena of sinking and falling of the local brick body 1 caused by slope settlement.

More specifically, referring to fig. 2 and 3, the upper connector 2 includes an inverted L-shaped upper fastening block 21 having a horizontal section flush with the upper end surface of the brick 1, and the lower connector 3 includes an L-shaped lower fastening block 31 having a horizontal section flush with the lower end surface of the brick 1; the vertical section of the upper buckling block 21 and the vertical section of the lower buckling block 31 jointly enclose a mortice groove 52, and the mortice groove 52 is a dovetail groove. Therefore, when the tenon inserting bodies 51 and the tenon inserting grooves 52 on two adjacent groups of the plurality of the tile bodies 1 which are longitudinally arranged are in embedded connection, the tile bodies 1 cannot displace along the width direction of the tile bodies 1, and the stability of the plurality of the tile bodies 1 after being assembled is further improved.

The side wall of the corner end of the vertical section of the lower buckling block 31 is provided with a first slot 32, the first slot 32 is communicated with the straight section of the lower buckling block 31, and the free end of the horizontal section of the upper buckling block 21 is fixedly connected with a first inserting block 22 which is in plug-in fit with the first slot 32;

a second slot 23 is formed in the side wall of the corner end of the vertical section of the upper buckling block 21, the second slot 23 is communicated with the straight section of the upper buckling block 21, and a second inserting block 33 which is in inserting fit with the second slot 23 is fixedly connected with the free end of the horizontal section of the lower buckling block 31;

after the first insert 22 is completely inserted into the first slot 32 and the second insert 33 is completely inserted into the second slot 23, a lock cavity 62 is formed between the sides of the first insert 22 and the second insert 33 facing away from each other for inserting the lock pin 61.

Therefore, when a plurality of bricks 1 are spliced longitudinally, the upper buckling block 21 of the next brick 1 is lapped on the lower buckling block 31 of the previous brick 1, the horizontal section of the upper buckling block 21 is attached to the horizontal section of the lower buckling block 31, the first inserting block 22 is aligned with the first inserting slot 32, and the second inserting block 33 is aligned with the second inserting slot 23; the next brick 1 is pushed to be close to the upper brick 1, the first inserting block 22 is inserted into the first inserting groove 32, the second inserting block 33 is inserted into the second inserting groove 23, at this time, the adjacent two bricks 1 cannot displace along the thickness and width directions of the brick 1, and a lock cavity 62 is formed between the first inserting block 22 and the second inserting block 33, so that when the lock pin 61 is inserted into the lock hole 42 of the planting hole 41 of the other brick 1 on the side of the brick 1, the lock pin 61 can be inserted into the lock cavity 62, at this time, the adjacent two bricks 1 cannot displace along the length direction of the brick 1, thereby completely locking the assembled bricks 1, even if the slope is subjected to larger-area sedimentation and collapse, the assembled interlocking brick 1 still has good protection and supporting effects, and the application scene of the interlocking brick of the application is wider.

In addition, referring to fig. 1, chamfers are further disposed at the notches of the first slot 32 and the second slot 23, so that firstly, the buckling of the upper buckling block 21 and the lower buckling block 31 is facilitated, secondly, by means of the avoidance effect of the chamfers, a certain deflection space can be provided for two adjacent brick bodies 1 after splicing, that is, a slight flexible protection effect after the plurality of bricks are spliced can be realized, the energy transfer between the plurality of bricks after splicing when the plurality of bricks are impacted is greatly reduced, and the flexible protection device is also suitable for some areas with uneven side slopes.

Further, a reinforcing member (not shown) provided along the length direction of the locking pin 61 is embedded in the locking pin 61 to reinforce the shearing force resistance of the locking pin 61, and specifically, the reinforcing member may be provided as a reinforcing bar, a small angle steel, a small channel steel, a small steel pipe, or the like.

In addition, for facilitating the later maintenance, a disassembling structure 611 for conveniently taking out the locking pin 61 is further provided at one end of the locking pin 61 located in the planting hole 41, and the disassembling structure is specifically a slot formed on the peripheral side of the end of the locking pin 61, when the locking pin 61 is completely embedded into the lock cavity 62 of the other tenon body 51, the slot is still exposed in the planting hole 41, so that the locking pin 61 can be conveniently pulled out from the locking hole 42.

The embodiment of the application also discloses an application of the customizable type interlocking ecological slope protection brick, which is based on the customizable type interlocking ecological slope protection brick and comprises the following steps:

arranging a plurality of brick bodies 1 in sequence along the length direction of the brick bodies, embedding an upper connector 2 of a next brick body 1 on a lower connector 3 of a previous brick body 1, sliding the upper connector 2 and the lower connector 3 adjacent to each other to form a tenon body 51, and repeatedly assembling the next brick body 1 until the longitudinal plurality of brick bodies 1 are assembled to form a longitudinal group;

sequentially splicing the longitudinal groups, and enabling the tenon bodies 51 in one longitudinal group to be embedded into the tenon grooves 52 in the other adjacent longitudinal group one by one;

the lock pin 61 is inserted into the adjacent tenon body 51 to lock in the planting hole 41 of the brick body 1.

The embodiment of the application relates to a customizable interlocking ecological slope protection brick, which has the implementation principle that:

when a plurality of bricks 1 are spliced longitudinally, the upper buckling blocks 21 of the next brick 1 are lapped on the lower buckling blocks 31 of the previous brick 1, at the moment, the horizontal sections of the upper buckling blocks 21 are attached to the horizontal sections of the lower buckling blocks 31, the first inserting blocks 22 are aligned with the first inserting grooves 32, and the second inserting blocks 33 are aligned with the second inserting grooves 23; the next brick 1 is pushed to be close to the upper brick 1, the first inserting block 22 is inserted into the first inserting groove 32, the second inserting block 33 is inserted into the second inserting groove 23, at this time, displacement along the thickness and width directions of the brick 1 cannot occur to two adjacent bricks 1, and a lock cavity 62 is formed between the first inserting block 22 and the second inserting block 33, so that when the lock pin 61 is inserted into the lock hole 42 of the planting hole 41 of the other brick 1 on the side of the brick 1, the lock pin 61 can be inserted into the lock cavity 62, at this time, displacement along the length direction of the brick 1 cannot occur to the two adjacent bricks 1, so that a plurality of assembled bricks 1 can be completely locked, even if a slope is subjected to larger-area sedimentation and collapse, the assembled interlocking brick 1 still has good protection and supporting effects, the phenomenon that the local brick 1 is sunken and falls off caused when the slope is settled can be effectively avoided, and the application of the interlocking brick of the application is wider in application range.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The terms "first," "second," "third," and the like in the description and in the claims, are not used for any order, quantity, or importance, but are used for distinguishing between different elements. The terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprising" or "comprises", and the like, is intended to mean that elements or items that are present in front of "comprising" or "comprising" are included in the word "comprising" or "comprising", and equivalents thereof, without excluding other elements or items. "upper", "lower", "left", "right", etc. are used merely to denote relative positional relationships, which may also change accordingly when the absolute position of the object to be described changes.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (7)

1. The customizable interlocking ecological slope protection brick is characterized by comprising a rectangular brick body (1), two upper connectors (2) and two lower connectors (3) which are arranged at four corners of the brick body (1), wherein the upper connectors (2) and the lower connectors (3) are respectively arranged at two ends of the brick body (1) in the length direction, and planting holes (41) are formed in the middle of the brick body (1) in a penetrating manner;

the upper connector (2) and the lower connector (3) on the other brick body (1) are spliced to form a tenon inserting body (51), and a tenon inserting groove (52) which is in splicing fit with the tenon inserting body (51) is formed between the upper connector (2) and the lower connector (3) on the same side of the same brick body (1);

the brick body (1) is provided with a lock hole (42) which is arranged along the width direction of the brick body (1) in a penetrating way on the wall of the planting hole (41), the lock hole (42) is positioned at the middle part of the brick body (1) in the length direction, a lock pin (61) is penetrated in the lock hole (42), and the part of the lock pin (61) which stretches into the mortice groove (52) locks the mortice body (51) which is positioned in the mortice groove (52).

2. The customizable type interlocking ecological slope protection brick according to claim 1, wherein the upper connector (2) comprises an inverted-L-shaped upper buckling block (21) with a horizontal section being level with the upper end face of the brick body (1), and the lower connector (3) comprises an L-shaped lower buckling block (31) with a horizontal section being level with the lower end face of the brick body (1); the vertical section of the upper buckling block (21) and the vertical section of the lower buckling block (31) jointly enclose to form the mortice groove (52), and the mortice groove (52) is a dovetail groove.

3. The customizable type interlocking ecological slope protection brick according to claim 2, characterized in that a first slot (32) is formed in the side wall of the corner end of the vertical section of the lower buckling block (31), the first slot (32) is communicated with the straight section of the lower buckling block (31), and a first inserting block (22) which is in plug-in fit with the first slot (32) is fixedly connected with the free end of the horizontal section of the upper buckling block (21);

a second slot (23) is formed in the side wall of the corner end of the vertical section of the upper buckling block (21), the second slot (23) is communicated with the straight section of the upper buckling block (21), and a second inserting block (33) which is in plug-in fit with the second slot (23) is fixedly connected with the free end of the horizontal section of the lower buckling block (31);

after the first plug block (22) is completely inserted into the first slot (32) and the second plug block (33) is completely inserted into the second slot (23), a lock cavity (62) for inserting the lock pin (61) is formed between one side, which is away from the second plug block (33), of the first plug block (22).

4. A customizable type interlocking ecological slope protection brick according to claim 3, wherein the notches of the first slot (32) and the second slot (23) are provided with chamfers.

5. The customizable interlocking ecological slope protection brick according to claim 1, wherein the locking pin (61) has embedded therein a reinforcement disposed along its length.

6. The customizable interlocking ecological slope protection brick according to claim 5, wherein the end of the locking pin (61) located in the planting hole (41) is provided with a dismounting structure (611) for facilitating the removal of the locking pin (61).

7. Use of a customizable, interlocking ecological slope protection brick, based on a customizable, interlocking ecological slope protection brick according to any one of claims 1 to 6, characterized in that it comprises the following steps:

arranging a plurality of brick bodies (1) along the length direction of the brick bodies in sequence, embedding the upper connecting body (2) of the next brick body (1) on the lower connecting body (3) of the previous brick body (1), sliding the upper connecting body (2) and the lower connecting body (3) which are adjacent to each other to form the tenon inserting body (51), and repeatedly splicing the next brick body (1) until the longitudinal plurality of brick bodies (1) are spliced to form a longitudinal group;

sequentially splicing a plurality of longitudinal groups, and enabling a plurality of tenon bodies (51) in one longitudinal group to be embedded into a plurality of tenon grooves (52) in the other adjacent longitudinal group one by one;

the lock pin (61) is inserted into the adjacent tenon inserting body (51) in the planting hole (41) of the brick body (1) to lock.