CN211690207U - Crack control water conservancy slope protection structure - Google Patents

Abstract

The utility model discloses a crack control water conservancy slope protection structure, include the mount that passes through stock fixed connection with the side slope, the brick of planting life who is connected with the mount, the mount includes the coupling mechanism who is connected with the brick of planting life, the stull mechanism that all is connected with coupling mechanism's top and coupling mechanism's bottom, the erector mechanism that all is connected with coupling mechanism's left side and coupling mechanism's right side, stull mechanism and erector mechanism all are connected with the brick of planting life, coupling mechanism, all be equipped with the anchor rod hole that makes the stock pass on stull mechanism and the erector mechanism, distance between two adjacent anchor rod holes is 50~65 cm. The utility model discloses the setting of mount and vegetation brick does benefit to the growth of vegetation and the firm of side slope, and the mount adopts the structure of field assembly, avoids cast in situ and the crack phenomenon appears, and the setting in a plurality of anchor rod holes is convenient for make mount and side slope firm in connection on the mount.

Description

Crack control water conservancy slope protection structure

Technical Field

The utility model relates to a slope protection technical field, concretely relates to crack control water conservancy slope protection structure.

Background

With the rapid development of China's society, the construction of heavy projects such as water conservancy and hydropower, highway traffic and the like, the technical problem of slope nursing is increasingly outstanding, the traditional slope protection method is to pour slope protection structures such as slide-resistant piles, lattice beams and the like on the surface of a slope in situ, after the traditional slope protection method is poured, cracks are easy to appear on the slope protection structure due to expansion with heat and contraction with cold, the structure is not firm, the construction period is long, the labor consumption is high, the construction dust emission is enlarged, the forming effect is poor, the quality is not easy to guarantee, and the vegetation is not easy to grow due to the fact that the construction is carried out in situ.

Therefore, it is a problem worth studying to provide an anti-cracking water conservancy slope protection structure which is convenient to install, avoids cracks and facilitates vegetation growth.

Disclosure of Invention

The utility model aims at providing a simple to operate, avoid appearing the crack and be convenient for the crack control crack water conservancy slope protection structure that vegetation is grown.

The purpose of the utility model is realized like this:

the utility model provides a crack control water conservancy slope protection structure, include the mount that passes through stock fixed connection with the side slope, the brick of growing plant of being connected with the mount, the mount includes the coupling mechanism who is connected with the brick of growing plant, the stull mechanism all is connected with coupling mechanism's top and coupling mechanism's bottom, the stull mechanism all is connected with coupling mechanism's left side and coupling mechanism's right side, stull mechanism and stull mechanism all are connected with the brick of growing plant, coupling mechanism, all be equipped with the stock hole that makes the stock pass on stull mechanism and the stull mechanism, distance between two adjacent stock holes is 50~65 cm.

The center of planting the brick is equipped with the hole of planting living that is used for planting the plant, and the upper surface and the lower surface of planting the brick are equipped with the ascending first draw-in groove of opening and the second draw-in groove that opens downwards respectively, and the left surface and the right surface of planting the brick are equipped with the left third draw-in groove of opening and the fourth draw-in groove that opens to the right respectively.

The thickness of the front and back direction of the vegetation brick is 8-15 cm, the length of the left and right direction of the vegetation brick is 30-60 cm, and the length of the vertical direction of the vegetation brick is 30-60 cm.

The connecting mechanism comprises a first connecting plate located in the vertical direction and a second connecting plate located in the horizontal direction, the first connecting plate and the second connecting plate are located on the same plane, a second anchor rod hole enabling the anchor rod to penetrate through is formed in the joint of the first connecting plate and the second connecting plate, and the distance between every two adjacent second anchor rod holes is 50-65 cm.

The upper surface of second connecting plate is equipped with and is used for with second draw-in groove matched with second fixture block, and the second fixture block sets up at least two, and two at least second fixture blocks are located the left and right sides of first connecting plate respectively, and the lower surface of second connecting plate is equipped with the third fixture block with first draw-in groove matched with, and the third fixture block sets up at least two, and two at least third fixture blocks are located the left and right sides of first connecting plate respectively.

The left side of the first connecting plate is provided with fourth clamping blocks matched with the fourth clamping grooves, the number of the fourth clamping blocks is at least two, the at least two fourth clamping blocks are respectively located on the upper side and the lower side of the second connecting plate, the right side of the first connecting plate is provided with fifth clamping blocks matched with the third clamping grooves, the number of the fifth clamping blocks is at least two, and the at least two fifth clamping blocks are respectively located on the upper side and the lower side of the second connecting plate.

The cross brace mechanism comprises a cross beam located in the horizontal direction, first anchor rod holes located in the cross beam, first clamping blocks located on the lower surface of the cross beam and matched with the first clamping grooves, first grooves enabling the two ends of the first connecting plate to be inserted are formed in the lower surface of the cross beam, the first grooves are located between every two adjacent first clamping blocks, and the distance between every two adjacent first anchor rod holes is 50-65 cm.

Erect and prop the mechanism including the perpendicular roof beam that is located vertical direction, be located the third anchor rod hole on the perpendicular roof beam, be located perpendicular roof beam left surface and with fourth draw-in groove matched with sixth fixture block, be located perpendicular roof beam right flank and with third draw-in groove complex seventh fixture block, sixth fixture block sets up at least two, and seventh fixture block sets up at least two, and the left surface and the right flank of perpendicular roof beam all are equipped with and make second connecting plate male second recess, and the distance between two adjacent third anchor rod holes is 50~65 cm.

The side face of the vegetation brick is provided with a plurality of first drainage holes, the first drainage holes are communicated with the outside, the beam is provided with a plurality of second drainage holes, the length direction of the second drainage holes is vertical, the first connecting plate is provided with a plurality of third drainage holes, the length direction of the third drainage holes is horizontal, the second connecting plate is provided with a plurality of fourth drainage holes, the length direction of the fourth drainage holes is horizontal, the vertical beam is provided with a plurality of fifth drainage holes, and the length direction of the fifth drainage holes is horizontal.

Has the positive and beneficial effects that: the utility model discloses the setting of mount and vegetation brick does benefit to the growth of vegetation and the firm of side slope, and the mount adopts the structure of field assembly, avoids cast in situ and the crack phenomenon appears, and the setting in a plurality of anchor rod holes is convenient for make mount and side slope firm in connection on the mount.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the vegetation brick of the present invention;

FIG. 3 is a left side view of FIG. 2;

fig. 4 is a schematic structural view of the fixing frame of the present invention;

fig. 5 is a schematic structural view of the cross brace mechanism of the present invention;

FIG. 6 is a schematic view of the structure in the direction A;

fig. 7 is a schematic structural view of the connection structure of the present invention;

FIG. 8 is a left side view of FIG. 7;

FIG. 9 is a top view of FIG. 7;

FIG. 10 is a schematic structural view of the vertical supporting mechanism of the present invention;

FIG. 11 is a left side view of FIG. 10;

in the figure, the following steps are carried out: the device comprises a fixing frame 1, a vegetation brick 2, a connecting mechanism 3, a cross bracing mechanism 4, a vertical bracing mechanism 5, a vegetation hole 6, a first clamping groove 7, a second clamping groove 8, a third clamping groove 9, a fourth clamping groove 10, a first water drainage hole 11, a cross beam 12, a first fixture block 13, a first anchor rod hole 14, a first groove 15, a second water drainage hole 16, a first connecting plate 17, a second connecting plate 18, a second fixture block 19, a third fixture block 20, a fourth fixture block 21, a fifth fixture block 22, a second anchor rod hole 23, a third water drainage hole 24, a fourth water drainage hole 25, a vertical beam 26, a third anchor rod hole 27, a sixth fixture block 28, a seventh fixture block 29, a second groove 30 and a fifth water drainage hole 31.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Example 1

As shown in fig. 1 to 11, an anti-crack water conservancy slope protection structure comprises a fixing frame 1 fixedly connected with a slope through an anchor rod, a vegetation brick 2 connected with the fixing frame 1, wherein the fixing frame 1 and the vegetation brick 2 are prefabricated in advance in a factory to avoid the crack of the slope protection structure caused by field construction and influence on the engineering quality, the fixing frame 1 comprises a connecting mechanism 3 connected with the vegetation brick 2, a cross brace mechanism 4 connected with the top of the connecting mechanism 3 and the bottom of the connecting mechanism, and a vertical brace mechanism 5 connected with the left side of the connecting mechanism 3 and the right side of the connecting mechanism, the cross brace mechanisms 4 are arranged symmetrically and are respectively positioned at the top and the bottom of the connecting mechanism 3, the connecting mechanism 3 is connected with the cross brace mechanism 4 and the vertical brace mechanism 5 through bolts, the cross brace mechanism 4 and the vertical brace mechanism 5 are connected with the vegetation brick 2, and the vegetation brick 2 and the connecting mechanism 3, The cross brace mechanism 4 is connected with the vertical brace mechanism 5 through the buckles, the installation and the disassembly are convenient, the connecting mechanism 3, the cross brace mechanism 4 and the vertical brace mechanism 5 are all provided with anchor rod holes for enabling anchor rods to pass, the distance between every two adjacent anchor rod holes is 50cm, a plurality of anchor rods are connected with the side slope, the fixing frame 2 is firmly connected with the side slope, and the phenomenon that the distance between every two adjacent anchor rods is too large due to the fact that field prefabrication is avoided.

The center department of planting brick 2 is equipped with the hole 6 that plants that is used for planting the plant, the upper surface and the lower surface of planting brick 2 are equipped with ascending first draw-in groove 7 of opening and the second draw-in groove 8 that opens downwards respectively, the shape of first draw-in groove 7 and second draw-in groove 8 is "protruding" shape, the buckle is firm, can plant the vegetation in planting hole 6, keep soil erosion and water loss, the stability of side slope has been increased, avoid appearing the inside soil property loss of side slope and make mounting 2 appear cracked phenomenon, the left surface and the right surface of planting brick 2 are equipped with opening third draw-in groove 9 and opening fourth draw-in groove 10 to the right respectively, third draw-in groove 9 and fourth draw-in groove 10 are semi-circular. The thickness of the vegetation brick 2 in the front-back direction is 8cm, the length of the vegetation brick in the left-right direction is 30cm, and the length of the vegetation brick in the vertical direction is 30 cm.

The connecting mechanism 3 comprises a first connecting plate 17 located in the vertical direction and a second connecting plate 18 located in the horizontal direction, the first connecting plate 17 and the second connecting plate 18 are located on the same plane, the first connecting plate 17 and the second connecting plate 18 can be integrally formed, the first connecting plate 17 and the second connecting plate 18 are made of concrete materials or steel plates, a second anchor rod hole 23 enabling an anchor rod to penetrate through is formed in the joint of the first connecting plate 17 and the second connecting plate 18, the distance between every two adjacent second anchor rod holes 23 is 50-65 cm, the second anchor rod holes 23 are sequentially arranged in the vertical direction of the first connecting plate 17 and the left and right direction of the second connecting plate 18, and the length direction of the second anchor rod holes 23 is the horizontal direction. The upper surface of the second connecting plate 18 is provided with two second clamping blocks 19 used for being matched with the second clamping grooves 8, the two second clamping blocks 19 are respectively located on the left side and the right side of the first connecting plate 17, the lower surface of the second connecting plate 18 is provided with three clamping blocks 20 matched with the first clamping grooves 7, the number of the third clamping blocks 20 is two, and the two third clamping blocks 20 are respectively located on the left side and the right side of the first connecting plate 17. The left side of the first connecting plate 17 is provided with four clamping blocks 21 matched with the fourth clamping grooves 10, the number of the fourth clamping blocks 21 is two, the two fourth clamping blocks 21 are respectively located on the upper side and the lower side of the second connecting plate 18, the right side of the first connecting plate 17 is provided with a fifth clamping block 22 matched with the third clamping groove 9, the number of the fifth clamping blocks 22 is two, and the two fifth clamping blocks 22 are respectively located on the upper side and the lower side of the second connecting plate 18.

The cross bracing mechanism 4 comprises a cross beam 12 located in the horizontal direction, first anchor rod holes 14 located in the cross beam 12, first clamping blocks 13 located on the lower surface of the cross beam 12 and matched with the first clamping grooves 7, the first cross beam 12 is made of concrete or steel plates, first grooves 15 enabling two ends of the first connecting plate 17 to be inserted are formed in the lower surface of the cross beam 12, the first grooves 5 are located between every two adjacent first clamping blocks 13, the distance between every two adjacent first anchor rod holes 14 is 50cm, the first anchor rod holes 14 are arranged along the left and right directions of the cross beam 12, the length direction of the first anchor rod holes 14 is the horizontal direction, the top or the bottom of the first connecting plate 17 is inserted into the first grooves 15, and then bolts penetrate through the top or the bottom of the first grooves 15 and the first connecting plate 17, so that the top or the bottom of the first connecting plate 17 is fixed with the first grooves 15.

The vertical supporting mechanism 5 comprises a vertical beam 26 located in the vertical direction, third anchor rod holes 27 located on the vertical beam 26, a sixth fixture block 28 located on the left side surface of the vertical beam 26 and matched with the fourth clamping groove 10, and a seventh fixture block 29 located on the right side surface of the vertical beam 26 and matched with the third clamping groove 9, wherein the number of the sixth fixture blocks 28 is two, the number of the seventh fixture blocks 29 is two, the left side surface and the right side surface of the vertical beam 26 are both provided with second grooves 30 for inserting the second connecting plate 18, the distance between every two adjacent third anchor rod holes 27 is 50cm, the third anchor rod holes 27 are arranged along the vertical direction of the vertical beam 26, the length direction of the third anchor rod holes 27 is the horizontal direction, the left end or the right end of the second connecting plate 18 is inserted into the second grooves 30, and then bolts penetrate through the second grooves and the left end or the right end of the second connecting plate 18, so that the left end or the right end of the second connecting plate 18 is fixed with the second fixing grooves 30.

When the fixing frame 1 is installed, the fixing frame 1 is firstly fixed with the surface of the side slope, the connecting mechanism 3 is firstly placed on the surface of the side slope, the anchor rod penetrates through the second anchor rod hole 23, the connecting mechanism 3 is fixed with the surface of the side slope, then the two cross-brace mechanisms are respectively placed at the top and the bottom of the connecting mechanism, the top and the bottom of the first connecting plate 17 are inserted into the first groove 15 and are fixed by bolts, then the anchor rod is inserted into the first anchor rod hole 14, the cross-brace mechanisms 4 are fixed with the surfaces of the first connecting plate 17 and the side slope, then the vertical beams 26 of the vertical brace mechanism 5 are placed at the left end and the right end of the second connecting plate 18, meanwhile, the left end and the right end of the second connecting plate 18 are respectively positioned in the second groove 30 and are fixed by bolts, then the anchor rod is inserted into the third anchor rod hole, the vertical brace mechanism 5 is fixed with the surfaces of the second connecting plate 18 and the side slope, and sequentially according to, connect a plurality of coupling mechanism 3, stull mechanism 4 and erects and prop mechanism 5 in proper order, constitute mount 2, then will plant living brick and place, in the space of constituteing by coupling mechanism 3, stull mechanism 4 and erects and prop mechanism 5, make the first draw-in groove 7, second draw-in groove 8, third draw-in groove 9 and the fourth draw-in groove 10 of planting living brick 2 block 13 with first fixture block 13, second fixture block 19, third fixture block 20, fourth fixture block 21, fifth fixture block 22, sixth fixture block 28 and seventh fixture block 29 block in proper order block respectively, firm in connection, and be convenient for change and plant living brick 2.

Example 2

As shown in fig. 1 to 11, an anti-crack water conservancy slope protection structure comprises a fixing frame 1 fixedly connected with a slope through an anchor rod, a vegetation brick 2 connected with the fixing frame 1, wherein the fixing frame 1 and the vegetation brick 2 are prefabricated in advance in a factory to avoid the crack of the slope protection structure caused by field construction and influence on the engineering quality, the fixing frame 1 comprises a connecting mechanism 3 connected with the vegetation brick 2, a cross brace mechanism 4 connected with the top of the connecting mechanism 3 and the bottom of the connecting mechanism, and a vertical brace mechanism 5 connected with the left side of the connecting mechanism 3 and the right side of the connecting mechanism, the cross brace mechanisms 4 are arranged symmetrically and are respectively positioned at the top and the bottom of the connecting mechanism 3, the connecting mechanism 3 is connected with the cross brace mechanism 4 and the vertical brace mechanism 5 through bolts, the cross brace mechanism 4 and the vertical brace mechanism 5 are connected with the vegetation brick 2, and the vegetation brick 2 and the connecting mechanism 3, The cross brace mechanism 4 is connected with the vertical brace mechanism 5 through the buckles, the installation and the disassembly are convenient, the connecting mechanism 3, the cross brace mechanism 4 and the vertical brace mechanism 5 are all provided with anchor rod holes for enabling anchor rods to pass, the distance between every two adjacent anchor rod holes is 50cm, a plurality of anchor rods are connected with the side slope, the fixing frame 2 is firmly connected with the side slope, and the phenomenon that the distance between every two adjacent anchor rods is too large due to the fact that field prefabrication is avoided.

The center department of planting brick 2 is equipped with the hole 6 that plants that is used for planting the plant, the upper surface and the lower surface of planting brick 2 are equipped with ascending first draw-in groove 7 of opening and the second draw-in groove 8 that opens downwards respectively, the shape of first draw-in groove 7 and second draw-in groove 8 is "protruding" shape, the buckle is firm, can plant the vegetation in planting hole 6, keep soil erosion and water loss, the stability of side slope has been increased, avoid appearing the inside soil property loss of side slope and make mounting 2 appear cracked phenomenon, the left surface and the right surface of planting brick 2 are equipped with opening third draw-in groove 9 and opening fourth draw-in groove 10 to the right respectively, third draw-in groove 9 and fourth draw-in groove 10 are semi-circular. The thickness of the vegetation brick 2 in the front-back direction is 15cm, the length of the vegetation brick in the left-right direction is 60cm, and the length of the vegetation brick in the vertical direction is 60 cm.

The connecting mechanism 3 comprises a first connecting plate 17 located in the vertical direction and a second connecting plate 18 located in the horizontal direction, the first connecting plate 17 and the second connecting plate 18 are located on the same plane, the first connecting plate 17 and the second connecting plate 18 can be integrally formed, the first connecting plate 17 and the second connecting plate 18 are made of concrete materials or steel plates, a second anchor rod hole 23 enabling an anchor rod to penetrate through is formed in the joint of the first connecting plate 17 and the second connecting plate 18, the distance between every two adjacent second anchor rod holes 23 is 65cm, the second anchor rod holes 23 are sequentially arranged in the vertical direction of the first connecting plate 17 and the left and right direction of the second connecting plate 18, and the length direction of the second anchor rod holes 23 is the horizontal direction. The upper surface of the second connecting plate 18 is provided with two second clamping blocks 19 used for being matched with the second clamping grooves 8, the two second clamping blocks 19 are respectively located on the left side and the right side of the first connecting plate 17, the lower surface of the second connecting plate 18 is provided with three clamping blocks 20 matched with the first clamping grooves 7, the number of the third clamping blocks 20 is two, and the two third clamping blocks 20 are respectively located on the left side and the right side of the first connecting plate 17. The left side of the first connecting plate 17 is provided with four clamping blocks 21 matched with the fourth clamping grooves 10, the number of the fourth clamping blocks 21 is two, the two fourth clamping blocks 21 are respectively located on the upper side and the lower side of the second connecting plate 18, the right side of the first connecting plate 17 is provided with a fifth clamping block 22 matched with the third clamping groove 9, the number of the fifth clamping blocks 22 is two, and the two fifth clamping blocks 22 are respectively located on the upper side and the lower side of the second connecting plate 18.

The cross bracing mechanism 4 comprises a cross beam 12 located in the horizontal direction, first anchor rod holes 14 located in the cross beam 12, first clamping blocks 13 located on the lower surface of the cross beam 12 and matched with the first clamping grooves 7, the first cross beam 12 is made of concrete or steel plates, first grooves 15 enabling two ends of the first connecting plate 17 to be inserted are formed in the lower surface of the cross beam 12, the first grooves 5 are located between every two adjacent first clamping blocks 13, the distance between every two adjacent first anchor rod holes 14 is 65cm, the first anchor rod holes 14 are arranged along the left and right directions of the cross beam 12, the length direction of the first anchor rod holes 14 is the horizontal direction, the top or the bottom of the first connecting plate 17 is inserted into the first grooves 15, and then bolts penetrate through the top or the bottom of the first grooves 15 and the first connecting plate 17, so that the top or the bottom of the first connecting plate 17 is fixed with the first grooves 15.

The vertical supporting mechanism 5 comprises a vertical beam 26 located in the vertical direction, third anchor rod holes 27 located on the vertical beam 26, a sixth fixture block 28 located on the left side surface of the vertical beam 26 and matched with the fourth clamping groove 10, and a seventh fixture block 29 located on the right side surface of the vertical beam 26 and matched with the third clamping groove 9, wherein the number of the sixth fixture blocks 28 is two, the number of the seventh fixture blocks 29 is two, the left side surface and the right side surface of the vertical beam 26 are both provided with second grooves 30 for inserting the second connecting plate 18, the distance between every two adjacent third anchor rod holes 27 is 65cm, the third anchor rod holes 27 are arranged along the vertical direction of the vertical beam 26, the length direction of the third anchor rod holes 27 is the horizontal direction, the left end or the right end of the second connecting plate 18 is inserted into the second grooves 30, and then bolts penetrate through the second grooves and the left end or the right end of the second connecting plate 18, so that the left end or the right end of the second connecting plate 18 is fixed with the second fixing grooves 30.

The side surface of the vegetation brick 2 is provided with a plurality of first drainage holes 11, the first drainage holes 1 communicate the vegetation holes 6 with the outside, the cross beam 12 is provided with a plurality of second drainage holes 16, the length direction of the second drainage holes 16 is vertical, the first connecting plate 17 is provided with a plurality of third drainage holes 24, the length direction of the third drainage holes 24 is horizontal, the second connecting plate 18 is provided with a plurality of fourth drainage holes 25, the length direction of the fourth drainage holes 25 is horizontal, the vertical beam 26 is provided with a plurality of fifth drainage holes 31, the length direction of the fifth drainage holes 31 is horizontal, the first drainage holes 11 and the second drainage holes 16, the third drain hole 24, the fourth drain hole 25 and the fifth drain hole 31 increase the drainage capacity of the fixing frame 1 and the vegetation brick 2, facilitate timely drainage of moisture in the vegetation brick 2 and the fixing frame 1, and reduce the amount of rainwater staying on the side slope.

When the fixing frame 1 is installed, the fixing frame 1 is firstly fixed with the surface of the side slope, the connecting mechanism 3 is firstly placed on the surface of the side slope, the anchor rod penetrates through the second anchor rod hole 23, the connecting mechanism 3 is fixed with the surface of the side slope, then the two cross-brace mechanisms are respectively placed at the top and the bottom of the connecting mechanism, the top and the bottom of the first connecting plate 17 are inserted into the first groove 15 and are fixed by bolts, then the anchor rod is inserted into the first anchor rod hole 14, the cross-brace mechanisms 4 are fixed with the surfaces of the first connecting plate 17 and the side slope, then the vertical beams 26 of the vertical brace mechanism 5 are placed at the left end and the right end of the second connecting plate 18, meanwhile, the left end and the right end of the second connecting plate 18 are respectively positioned in the second groove 30 and are fixed by bolts, then the anchor rod is inserted into the third anchor rod hole, the vertical brace mechanism 5 is fixed with the surfaces of the second connecting plate 18 and the side slope, and sequentially according to, connect a plurality of coupling mechanism 3, stull mechanism 4 and erects and prop mechanism 5 in proper order, constitute mount 2, then will plant living brick and place, in the space of constituteing by coupling mechanism 3, stull mechanism 4 and erects and prop mechanism 5, make the first draw-in groove 7, second draw-in groove 8, third draw-in groove 9 and the fourth draw-in groove 10 of planting living brick 2 block 13 with first fixture block 13, second fixture block 19, third fixture block 20, fourth fixture block 21, fifth fixture block 22, sixth fixture block 28 and seventh fixture block 29 block in proper order block respectively, firm in connection, and be convenient for change and plant living brick 2.

The utility model discloses the setting of mount and vegetation brick does benefit to the growth of vegetation and the firm of side slope, and the mount adopts the structure of field assembly, avoids cast in situ and the crack phenomenon appears, and the setting in a plurality of anchor rod holes is convenient for make mount and side slope firm in connection on the mount.

Claims (9)

1. The utility model provides an anti cracking water conservancy slope protection structure which characterized in that: including the mount that passes through stock fixed connection with the side slope, the brick of planting living of being connected with the mount, the mount includes the coupling mechanism who is connected with the brick of planting living, the stull mechanism of all being connected with coupling mechanism's top and coupling mechanism's bottom, the erector strut mechanism of all being connected with coupling mechanism's left side and coupling mechanism's right side, stull mechanism and erector strut mechanism all are connected with the brick of planting living, coupling mechanism, all be equipped with the anchor rod hole that makes the stock pass on stull mechanism and the erector strut mechanism, distance between two adjacent anchor rod holes is 50~65 cm.

2. The crack control water conservancy slope protection structure of claim 1, characterized in that: the center of planting the brick is equipped with the hole of planting living that is used for planting the plant, and the upper surface and the lower surface of planting the brick are equipped with the ascending first draw-in groove of opening and the second draw-in groove that opens downwards respectively, and the left surface and the right surface of planting the brick are equipped with the left third draw-in groove of opening and the fourth draw-in groove that opens to the right respectively.

3. An anti-cracking water conservancy slope protection structure according to claim 2, wherein: the thickness of the front and back direction of the vegetation brick is 8-15 cm, the length of the left and right direction of the vegetation brick is 30-60 cm, and the length of the vertical direction of the vegetation brick is 30-60 cm.

4. An anti-cracking water conservancy slope protection structure according to claim 3, wherein: the connecting mechanism comprises a first connecting plate located in the vertical direction and a second connecting plate located in the horizontal direction, the first connecting plate and the second connecting plate are located on the same plane, a second anchor rod hole enabling the anchor rod to penetrate through is formed in the joint of the first connecting plate and the second connecting plate, and the distance between every two adjacent second anchor rod holes is 50-65 cm.

5. An anti-cracking water conservancy slope protection structure according to claim 4, wherein: the upper surface of second connecting plate is equipped with and is used for with second draw-in groove matched with second fixture block, and the second fixture block sets up at least two, and two at least second fixture blocks are located the left and right sides of first connecting plate respectively, and the lower surface of second connecting plate is equipped with the third fixture block with first draw-in groove matched with, and the third fixture block sets up at least two, and two at least third fixture blocks are located the left and right sides of first connecting plate respectively.

6. An anti-cracking water conservancy slope protection structure according to claim 5, wherein: the left side of the first connecting plate is provided with fourth clamping blocks matched with the fourth clamping grooves, the number of the fourth clamping blocks is at least two, the at least two fourth clamping blocks are respectively located on the upper side and the lower side of the second connecting plate, the right side of the first connecting plate is provided with fifth clamping blocks matched with the third clamping grooves, the number of the fifth clamping blocks is at least two, and the at least two fifth clamping blocks are respectively located on the upper side and the lower side of the second connecting plate.

7. An anti-cracking water conservancy slope protection structure according to claim 6, wherein: the cross brace mechanism comprises a cross beam located in the horizontal direction, first anchor rod holes located in the cross beam, first clamping blocks located on the lower surface of the cross beam and matched with the first clamping grooves, first grooves enabling the two ends of the first connecting plate to be inserted are formed in the lower surface of the cross beam, the first grooves are located between every two adjacent first clamping blocks, and the distance between every two adjacent first anchor rod holes is 50-65 cm.

8. An anti-cracking water conservancy slope protection structure according to claim 7, wherein: erect and prop the mechanism including the perpendicular roof beam that is located vertical direction, be located the third anchor rod hole on the perpendicular roof beam, be located perpendicular roof beam left surface and with fourth draw-in groove matched with sixth fixture block, be located perpendicular roof beam right flank and with third draw-in groove complex seventh fixture block, sixth fixture block sets up at least two, and seventh fixture block sets up at least two, and the left surface and the right flank of perpendicular roof beam all are equipped with and make second connecting plate male second recess, and the distance between two adjacent third anchor rod holes is 50~65 cm.

9. An anti-cracking water conservancy slope protection structure according to claim 8, wherein: the side face of the vegetation brick is provided with a plurality of first drainage holes, the first drainage holes are communicated with the outside, the beam is provided with a plurality of second drainage holes, the length direction of the second drainage holes is vertical, the first connecting plate is provided with a plurality of third drainage holes, the length direction of the third drainage holes is horizontal, the second connecting plate is provided with a plurality of fourth drainage holes, the length direction of the fourth drainage holes is horizontal, the vertical beam is provided with a plurality of fifth drainage holes, and the length direction of the fifth drainage holes is horizontal.

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