CN204418211U - A kind of spatial intersecting inter-embedding type ecological block retaining wall system of variable slope - Google Patents

Abstract

The utility model relates to a kind of spatial intersecting inter-embedding type ecological block retaining wall system of variable slope, this retaining wall system comprises two kinds of main inter-embedding type ecological blocks and two kinds of corresponding auxiliary ecological blocks, each building block by band cantilever and the front and back panel be parallel to each other and the left and right floor that is connected panel form, surround central through hole between panel and floor.By the combination of different building block during construction, retaining wall is arranged to the pattern of type of facing directly, curved face type and different gradient combination, the through hole that rear metope of having constructed is formed can be used for the vegetation planting different well developed root system degree.The ecological block retaining wall system on variable slope of the present utility model utilizes the architectural characteristic of self mutually to lock, avoid the use of the medium such as rubber bar, pin, improve safety and the durability of barricade, during construction, the combination of different building block can also meet the barricade design of different gradient and curved surface.The utility model can be applied to the construction of highway, river course slope protection, produces simple, constructs convenient.

Description

A kind of spatial intersecting inter-embedding type ecological block retaining wall system of variable slope

Technical field

The utility model relates to the spatial intersecting inter-embedding type ecological block retaining wall system of a kind of novel changable slope formula, belong to civil construction project, traffic marine traffic engineering field.

Background technology

At present in municipal administration, traffic, hydraulic engineering field, retaining wall structure application is very extensive, and it can play support Roadbed Soil or slope soil, prevents from banketing or the effect of soil deformation unstability.So far, traditional stone masonry or concrete retaining wall still have a wide range of applications in China, but it is high to ground requirement for bearing capacity, and the application on soft foundation is often restricted.

Traditional stone masonry or concrete retaining wall, can run into stone masonry in construction and build by laying bricks or stones or the process of concreting, this just makes construction environment, curing condition etc. need meet strict construction requirement, and then affects the progress of engineering construction.

In recent years, under the guidance of safety, economy, environmental protection and sustainable development idea, the reinforced unit retaining wall that can afforest more and more is subject to attention and the favor of domestic and international project circle.This reinforced unit retaining wall due to building block self section little, low to the requirement for bearing capacity on basis, there is advantages such as can realizing factory's Virtual production, on-the-spot rapid-assembling, and possess ecology and landscape function.

Through the development of many decades, reinforced unit retaining wall block embodies various block-type, widely application characteristic.But along with deepening constantly of instructions for use, also embody many deficiencies.

On December 9th, 1997, U.S. William B. Dawson. etc. discloses a kind of retaining wall block (patent No.: USD387434) with planting hole, this block is made up of the front-back wall be parallel to each other, the mesopore of an inverted trapezoidal is had in the middle part of block, lower section is in front wall side, and the both sides of mesopore respectively have three side openings.This invention dust block has larger porosity, has good ecology to plant and comes into force really.

On January 12nd, 2005, Cheng Weiguo discloses a kind of dust block (application number: 200410014654.6), the leading portion portion of this block or rearward end are provided with the flange protruded on it, block both sides are provided with the groove be inwardly recessed, the middle part of block has a mesopore, the both sides of mesopore respectively have a side opening, and the distance between two apertures of homonymy is identical with the width of trailing edge.The present invention utilizes the shear strength between trailing edge formations enhancing block and block, inserts rubber bar to improve the shock resistance of body of wall in the corresponding aperture of neighbouring two dust blocks.

On May 19th, 2010, Ye Fei etc. disclose a kind of planting type soil block (application number: 200920234279.4), this planting type soil block is provided with the structures such as flange, mesopore, side opening equally, it is characterized in that the middle part of the other end relative with flange on block has the stomidium of the side opening corresponding to mesopore, the area of stomidium is equal to or slightly less than the area of mesopore, ovalize.This invention increases the porosity of dust block, has good ecology and plants fruit of coming into force.

On January 16th, 2013, Zou Jin discloses a kind of energy straw-planting type dust block of independent assortment and the retaining wall (application number: 201220267747.X) of drystone, this block is by bottom surface, end face, two sides, form above and below, block is provided with the planting hole of through end face and bottom surface, the both sides of planting hole are symmetrically arranged with the first anchoring rods hole and the second anchoring rods hole respectively.This utility model is the shaping two kinds of angles of energy when constructing, and breach the difficult problem that dust block angle when shaping is unique.

Above Query Result display, reinforced unit retaining wall mainly rests on the two dimensional surface stage embedding mutually both at home and abroad at present, rely on to a great extent in block preformed hole and insert anchoring rods and prevent front and back between block or lateral sliding, the Retaining Walls of Hollow Concrete Blocks of this kind of dependence medium occlusion also exists the potential problems such as medium burn into fracture in embody rule process, as construction and in bad repair, easily cause the safety problem of barricade.

On July 2nd, 2014, Huang Jing etc. disclose a kind of spatial intersecting inter-embedding type ecological block retaining wall, and (application number: 201320810043.7), this retaining wall is made up of main inter-embedding type ecological block, end auxiliary block of concrete and top auxiliary block of concrete.This invention utilizes structure self mutually to lock, and achieves spatial intersecting embedding mutually, avoids the use of anchoring rods, improves safety and the durability of body of wall, can realize the retaining wall of curved form.But this Retaining Walls of Hollow Concrete Blocks block type structure is comparatively complicated, and processing cost is high, runs into when becoming slope problem and cannot solve.Therefore, propose a kind of block-type simple, can realize becoming slope formula spatial intersecting, the ecological block being applicable to complex slope is necessary.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of spatial intersecting inter-embedding type ecological block retaining wall system of novel variable slope, use the problems such as the complicated and single construction gradient of the defect of auxiliary media opposing building block lateral sliding between layers, block-type to overcome existing inter-embedding type ecological block retaining wall, realize the improvement on the multi-functionals such as simplification in building block production technology and barricade durability, landscape effect, variable slope.

The utility model adopts following technical scheme:

The spatial intersecting inter-embedding type ecological block retaining wall system of a kind of variable slope formula, comprise the main inter-embedding type ecological block of space interlacing type arrangement, auxiliary ecological block and reinforced bar net, it is characterized in that: described main inter-embedding type ecological block and auxiliary ecological block comprise A, B two kinds of block-type respectively, respectively corresponding A 1(1), B1(2) and A2(3), B2(4); Described main inter-embedding type ecological block A1 is by forward and backward parallel panel a(5), (6) and the left and right floor a(7 being connected front and back panels a), (8) form, the length of front panel a (5) is greater than the length of rear board a (6), left and right floor a(7), (8) connect front and back panels a(5 respectively), the left and right half portion of (6) and form forward and backward cantilever a(9), (10), front and back panels a (5), (6) and left and right floor a(7), (8) surround central through hole a(11), building block A1(1) overall left and right is to one-tenth; Described auxiliary block of concrete A2(3) with main inter-embedding type ecological block A1(1) the completely the same but segment heights of plan structure is the half of main inter-embedding type ecological block A1; Described main inter-embedding type ecological block B1 is by forward and backward parallel panel b(12), (13) and the left and right floor b(14 being connected front and back panels b), (15) form, front panel b(12) length be greater than rear board b(13) length and with the front panel a(5 in main inter-embedding type ecological block A1) length consistent, front panel b(12) thickness be greater than main inter-embedding type ecological block A1(1) in front panel a(5) thickness and center is hollow-core construction.Left and right floor b(14), (15) connect front and back panels b(12 respectively), the left and right half portion of (13) and form forward and backward cantilever b(16), (17).Front boom b length and main inter-embedding type ecological block A1(1) in front boom a(9) length consistent.Front panel b(12) entity part, rear board b(13) and left and right floor b(14), (15) surround central through hole b(18), building block B1 (2) overall left and right is highly consistent with main inter-embedding type ecological block A1 to one-tenth; Described auxiliary block of concrete B2(4) with main inter-embedding type ecological block B1(2) the completely the same but segment heights of plan structure is the half of main inter-embedding type ecological block B1.

Described front panel a(5) and front panel b(12) two ends be equipped with arced terminus (19), the angle about during assembling between two pieces of building blocks is adjustable, to adapt to the body of wall of arc-shaped curved surface requirement.

Use described main inter-embedding type ecological block A1 (1) and auxiliary ecological block A2 (3) that heavy grade or the ecological retaining wall of vertical type can be assembled into; Use described main inter-embedding type ecological block B1 (2) and auxiliary ecological block B2 (4) that light grade or the ecological retaining wall of vertical type can be assembled into; Use described main inter-embedding type ecological block A1 (1) simultaneously, B1 (2) and auxiliary ecological block A2 (3), B2 (4) can be assembled into and become the ecological retaining wall of slope formula.

Described main inter-embedding type ecological block is after alternating expression is assembled into the acclive wall body of band, the front panel of each building block and the building block front panel of its upper and lower, left and right lock mutually, the exposed face in the front of front panel forms rectangle, and front panel upper end and the front panel embedding building block above it surround planting hole (20).

The utility model additionally provides a kind of construction method of spatial intersecting inter-embedding type ecological block retaining wall system of above-mentioned variable slope, comprises the following steps:

A. the construction line-putting, leveling ground, lays retaining wall basis;

B. above basis, bottom building block is laid, main inter-embedding type ecological block and auxiliary block of concrete are interlocked transversely arranged, and be affixed outside each building block two front boom with the inner face of the building block front boom of both sides, angle between adjacent block controls according to design needs, again building block through hole and barricade bankets behind or rubble to the height of auxiliary ecological block, the hand compaction leveling wall back of the body bankets;

C. the main inter-embedding type ecological block of the second layer is laid in the staggered interval formed above above-mentioned first floor building block, and the outside of the front boom of each for second layer building block is touched the inner face (or the inner face of the front boom of each for second layer building block being touched the outside of front boom of the main inter-embedding type ecological block of first floor) of the front boom of first floor main inter-embedding type ecological block, angle between adjacent block controls according to design needs, equally second layer building block through hole and barricade bankets behind or rubble to the height of the main inter-embedding type ecological block of first floor, the hand compaction leveling wall back of the body bankets,

D. depending on second layer building block be banket after new first floor building block, repeat step c, by retaining wall construction to design height; According to designing requirement, need specify in the two-layer building block that laying elevation is adjacent while repeating step c, lay reinforced geo-grid, the scene, front end of reinforced geo-grid is cut out to adapt to retaining wall back building block feature, again the reinforced geo-grid other end is laid to design length to barricade rear portion, and at reinforced geo-grid two ends in addition anchorage;

E. in the staggered interval that retaining wall top layer is formed, auxiliary ecological block is laid;

F. lay the top layer soil body and carry out plantation in planting hole on barricade face in the finished and beautify.

In sum, the spatial intersecting inter-embedding type ecological block retaining wall system on variable slope that the utility model provides has following technique effect:

1. the via design of ecological block structure make the apparent density of masonry itself comparatively other kind building block reduce, had and reduced the requirement of body of wall to bearing capacity of foundation soil little;

2. the structure of inter-embedding type ecological block utilization itself that alternating expression is repeatedly put locks mutually, avoids the use of the medium such as rubber bar, pin, improves safety and the durability of body of wall;

3. ecological block designs with the front boom of arced terminus, can repeatedly put in assembling process can with angle, to adapt to the retaining wall body of arc-shaped curved surface requirement;

4. adopt the repeatedly form of putting of combined biological building block can realize becoming the protection effect of slope formula, to adapt to different designing requirements;

5. the planting hole on retaining wall surface can use akala, the vegetation such as grass class are afforested, banket because there is the design of through hole to be communicated with up and down in building block, sufficient planting soil thickness can be provided for plant, the vegetation of well developed root system can be saved from damage, when barricade is applied to river course slope protection, the planting hole of bottom can use, for aquatic animal provides habitat as fish groove again;

6. block structure is more simple, easy to process, and assemble easy, cost is low, has good ecological benefits and economic benefit.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the utility model main inter-embedding type ecological block A1;

Fig. 2 is the schematic perspective view that the utility model assists ecological block A2;

Fig. 3 is the top view of the main inter-embedding type ecological block A1 shown in Fig. 1 and Fig. 2 and auxiliary block of concrete A2;

Fig. 4 is the schematic perspective view of the utility model main inter-embedding type ecological block B1;

Fig. 5 is the schematic perspective view that the utility model assists ecological block B2;

Fig. 6 is the top view of the main inter-embedding type ecological block B1 shown in Fig. 4 and Fig. 5 and auxiliary block of concrete B2;

The construction assembling schematic diagram of the ecological block retaining wall system that Fig. 7 provides for the utility model;

The schematic perspective view of the first embodiment (the straight type in abrupt slope) of the ecological block retaining wall that Fig. 8 provides for the utility model;

The schematic perspective view of the second embodiment (abrupt slope is curved) of the ecological block retaining wall that Fig. 9 provides for the utility model;

The schematic perspective view of the third embodiment (the straight type in gentle slope) of the ecological block retaining wall that Figure 10 provides for the utility model;

The schematic perspective view of the 4th kind of embodiment (the straight type in combination slope) of the ecological block retaining wall that Figure 11 provides for the utility model.

In figure:

1-main inter-embedding type ecological block A1,2-main inter-embedding type ecological block B1,3-assists ecological block A2, and 4-assists ecological block B2, the right floor a of 5-front panel a, 6-rear board a, 7-left floor a, 8-, 9-front boom a, 10-back boom a, 11-central through hole a, 12-front panel b, 13-rear board b, 14-left floor b, 15-right floor b, 16-front boom b, 17-back boom b, 18-central through hole b, 19-arced terminus, 20-planting hole, 21-reinforced geo-grid, 22-bankets

Detailed description of the invention

The utility model adopts four kinds of embodiments to be described utility model content.

Main inter-embedding type ecological block A1 and auxiliary ecological block A2 is adopted to carry out barricade assembling in embodiment 1 and embodiment 2, embodiment 3 adopts main inter-embedding type ecological block B1 and auxiliary ecological block B2 to carry out barricade assembling, adopts main inter-embedding type ecological block A1, B1 and auxiliary ecological block A2, B2 to carry out barricade assembling in embodiment 4 simultaneously.

As shown in Figure 1, described main inter-embedding type ecological block A1 is by forward and backward parallel panel a(5,6) with the left and right floor a(7,8 being connected front and back panels a) form, the length of front panel a (5) is greater than the length of rear board a (6), left and right floor a(7,8) respectively connect front and back panels a(5,6) left and right half portion and form forward and backward cantilever a(9,10), front and back panels a (5,6) and left and right floor a(7,8) surround central through hole a(11), building block A1(1) overall left and right is to one-tenth; As shown in Figures 2 and 3, described auxiliary block of concrete A2(3) with main inter-embedding type ecological block A1(1) the completely the same but segment heights of plan structure is the half of main inter-embedding type ecological block A1.

As shown in Figure 4, described main inter-embedding type ecological block B1 is by forward and backward parallel panel b(12,13) with the left and right floor b(14,15 being connected front and back panels b) form, front panel b(12) length be greater than rear board b(13) length and with the front panel a(5 in main inter-embedding type ecological block A1) length consistent, front panel b(12) thickness be greater than main inter-embedding type ecological block A1(1) in front panel a(5) thickness and center is hollow-core construction.Left and right floor b(14,15) respectively connect front and back panels b(12,13) left and right half portion and form forward and backward cantilever b(16,17).Front boom b (16) length and main inter-embedding type ecological block A1(1) in front boom a(9) length consistent.Front panel b(12) entity part, rear board b(13) and left and right floor b(14,15) surround central through hole b(18), building block B1 (2) overall left and right is highly consistent with main inter-embedding type ecological block A1 to one-tenth; As shown in Figures 2 and 3, described auxiliary block of concrete B2(4) with main inter-embedding type ecological block B1(2) the completely the same but segment heights of plan structure is the half of main inter-embedding type ecological block B1.

Described front panel a(5) and front panel b(12) two ends be equipped with arced terminus (19), the angle about during assembling between two pieces of building blocks is adjustable, to adapt to the body of wall of arc-shaped curved surface requirement.

Embodiment 1

See Fig. 7 and Fig. 8, adopt above-mentioned main inter-embedding type ecological block A1 and auxiliary ecological block A2 to carry out the construction method that barricade is assembled into the straight type retaining wall in abrupt slope as shown in Figure 8, comprise the following steps:

1) the construction line-putting, leveling ground, lays retaining wall basis;

2) above basis, bottom building block is laid, main inter-embedding type ecological block A1 and auxiliary block of concrete A2 is interlocked transversely arranged, and be affixed outside each building block two front boom with the inner face of the building block front boom of both sides, 0 degree is set to according to the angle of designing requirement between adjacent block, again building block through hole and barricade bankets behind or rubble to the height of auxiliary ecological block A2, the hand compaction leveling wall back of the body bankets;

3) second layer main inter-embedding type ecological block A1 is laid in the staggered interval formed above above-mentioned first floor building block, and the outside of the front boom of each for second layer building block is touched the inner face of the front boom of the main inter-embedding type ecological block of first floor, 0 degree is set to according to the angle of designing requirement between adjacent block, equally second layer building block through hole and barricade bankets behind or rubble to the height of first floor main inter-embedding type ecological block A1, hand compaction leveling wall is carried on the back and is banketed;

4) depending on second layer building block be banket after new first floor building block, repeat step 3, by retaining wall construction to design height; According to designing requirement, need specify in the two-layer building block that laying elevation is adjacent while repeating step c, lay reinforced geo-grid, the scene, front end of reinforced geo-grid is cut out to adapt to retaining wall back building block feature, again the reinforced geo-grid other end is laid to design length to barricade rear portion, and at reinforced geo-grid two ends in addition anchorage;

5) in the staggered interval that retaining wall top layer is formed, auxiliary ecological block A2 is laid;

6) lay the top layer soil body and carry out plantation in planting hole on barricade face in the finished and beautify.

Embodiment 2

Adopt above-mentioned main inter-embedding type ecological block A1 and auxiliary ecological block A2 to carry out the construction method that barricade is assembled into the curved retaining wall in abrupt slope as shown in Figure 9, comprise the following steps:

1) the construction line-putting, leveling ground, lays retaining wall basis;

2) above basis, bottom building block is laid, main inter-embedding type ecological block A1 and auxiliary block of concrete A2 is interlocked transversely arranged, and be affixed outside each building block two front boom with the inner face of the building block front boom of both sides, between adjacent block, certain angle (not being 0 degree) is provided with according to designing requirement, again building block through hole and barricade bankets behind or rubble to the height of auxiliary ecological block A2, the hand compaction leveling wall back of the body bankets;

3) second layer main inter-embedding type ecological block A1 is laid in the staggered interval formed above above-mentioned first floor building block, and the outside of the front boom of each for second layer building block is touched the inner face of the front boom of the main inter-embedding type ecological block of first floor, between adjacent block, certain angle (not being 0 degree) is provided with according to designing requirement, equally second layer building block through hole and barricade bankets behind or rubble to the height of first floor main inter-embedding type ecological block A1, hand compaction leveling wall is carried on the back and is banketed;

4) depending on second layer building block be banket after new first floor building block, repeat step 3, by retaining wall construction to design height; According to designing requirement, need specify in the two-layer building block that laying elevation is adjacent while repeating step c, lay reinforced geo-grid, the scene, front end of reinforced geo-grid is cut out to adapt to retaining wall back building block feature, again the reinforced geo-grid other end is laid to design length to barricade rear portion, and at reinforced geo-grid two ends in addition anchorage;

5) in the staggered interval that retaining wall top layer is formed, auxiliary ecological block A2 is laid;

6) lay the top layer soil body and carry out plantation in planting hole on barricade face in the finished and beautify.

Embodiment 3

Adopt above-mentioned main inter-embedding type ecological block B1 and auxiliary ecological block B2 to carry out the construction method that barricade is assembled into the straight type retaining wall in gentle slope as shown in Figure 10, comprise the following steps:

1) the construction line-putting, leveling ground, lays retaining wall basis;

2) above basis, bottom building block is laid, main inter-embedding type ecological block B1 and auxiliary block of concrete B2 is interlocked transversely arranged, and be affixed outside each building block two front boom with the inner face of the building block front boom of both sides, 0 degree is set to according to the angle of designing requirement between adjacent block, again building block through hole and barricade bankets behind or rubble to the height of auxiliary ecological block B2, the hand compaction leveling wall back of the body bankets;

3) second layer main inter-embedding type ecological block B1 is laid in the staggered interval formed above above-mentioned first floor building block, and the outside of the front boom of each for second layer building block is touched the inner face of the front boom of the main inter-embedding type ecological block of first floor, 0 degree is set to according to the angle of designing requirement between adjacent block, equally second layer building block through hole and barricade bankets behind or rubble to the height of first floor main inter-embedding type ecological block B1, hand compaction leveling wall is carried on the back and is banketed;

4) depending on second layer building block be banket after new first floor building block, repeat step 3, by retaining wall construction to design height; According to designing requirement, need specify in the two-layer building block that laying elevation is adjacent while repeating step c, lay reinforced geo-grid, the scene, front end of reinforced geo-grid is cut out to adapt to retaining wall back building block feature, again the reinforced geo-grid other end is laid to design length to barricade rear portion, and at reinforced geo-grid two ends in addition anchorage;

5) in the staggered interval that retaining wall top layer is formed, auxiliary ecological block B2 is laid;

6) lay the top layer soil body and carry out plantation in planting hole on barricade face in the finished and beautify.

Embodiment 4

Adopt above-mentioned main inter-embedding type ecological block A1, B1 and auxiliary ecological block A2, B2 to carry out barricade simultaneously and be assembled into the construction method combining the straight type retaining wall in slope, slope as shown in figure 11, comprise the following steps:

1) the construction line-putting, leveling ground, lays retaining wall basis;

2) above basis, bottom building block is laid, main inter-embedding type ecological block A1 and auxiliary block of concrete A2 is interlocked transversely arranged, and be affixed outside each building block two front boom with the inner face of the building block front boom of both sides, 0 degree is set to according to the angle of designing requirement between adjacent block, again building block through hole and barricade bankets behind or rubble to the height of auxiliary ecological block B2, the hand compaction leveling wall back of the body bankets;

3) second layer main inter-embedding type ecological block A1 is laid in the staggered interval formed above above-mentioned first floor building block, and each for second layer building block is alignd with the building block of its lower floor repeatedly put, equally second layer building block through hole and barricade bankets behind or rubble to the height of first floor main inter-embedding type ecological block A1, hand compaction leveling wall is carried on the back and is banketed;

4) depending on second layer building block be banket after new first floor building block, repeat step 3 twice, retaining wall construction to design height formed vertical type barricade part; According to designing requirement, need specify in the two-layer building block that laying elevation is adjacent while repeating step c, lay reinforced geo-grid, the scene, front end of reinforced geo-grid is cut out to adapt to retaining wall back building block feature, again the reinforced geo-grid other end is laid to design length to barricade rear portion, and at reinforced geo-grid two ends in addition anchorage;

5) in the staggered interval of the vertical type barricade Portions of top layer formed, lay the main ecological block B1 of first floor, and rearward repeatedly put three layers of main ecological block B1 successively, method of repeatedly putting is consistent with the method for repeatedly putting in construction example 3, forms gentle slope straight type barricade part; According to designing requirement, need specify in the two-layer building block that laying elevation is adjacent while repeatedly putting main ecological block B1, lay reinforced geo-grid, the scene, front end of reinforced geo-grid is cut out to adapt to retaining wall back building block feature, again the reinforced geo-grid other end is laid to design length to barricade rear portion, and at reinforced geo-grid two ends in addition anchorage;

6) in the staggered interval of the gentle slope straight type barricade Portions of top layer formed, lay main ecological block A1, and rearward repeatedly put the main ecological block A1 of one deck more successively, method of repeatedly putting is consistent with the method for repeatedly putting in construction example 1, forms abrupt slope straight type barricade part; According to designing requirement, need specify in the two-layer building block that laying elevation is adjacent while repeatedly putting main ecological block A1, lay reinforced geo-grid, the scene, front end of reinforced geo-grid is cut out to adapt to retaining wall back building block feature, again the reinforced geo-grid other end is laid to design length to barricade rear portion, and at reinforced geo-grid two ends in addition anchorage;

5) in the staggered interval of the abrupt slope straight type retaining wall Portions of top layer formed, auxiliary ecological block B2 is laid;

6) lay the top layer soil body and carry out plantation in planting hole on barricade face in the finished and beautify.

Described embodiment and schematic diagram be not in order to limit the utility model, all within connotation of the present utility model and principle, and any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (4)

1. the spatial intersecting inter-embedding type ecological block retaining wall system on a variable slope, comprise the main inter-embedding type ecological block of space interlacing type arrangement, auxiliary ecological block and reinforced bar net, it is characterized in that: described main inter-embedding type ecological block and auxiliary ecological block comprise A, B two kinds of block-type respectively, respectively corresponding A 1(1), B1(2) and A2(3), B2(4); Described main inter-embedding type ecological block A1 is by forward and backward parallel panel a(5,6) with the left and right floor a(7,8 being connected front and back panels a) form, the length of front panel a (5) is greater than the length of rear board a (6), left and right floor a(7,8) respectively connect front and back panels a(5,6) left and right half portion and form forward and backward cantilever a(9,10), front and back panels a (5,6) and left and right floor a(7,8) surround central through hole a(11), building block A1(1) overall left and right is to one-tenth; Described auxiliary block of concrete A2(3) with main inter-embedding type ecological block A1(1) the completely the same but segment heights of plan structure is the half of main inter-embedding type ecological block A1; Described main inter-embedding type ecological block B1 is by forward and backward parallel panel b(12,13) with the left and right floor b(14,15 being connected front and back panels b) form, front panel b(12) length be greater than rear board b(13) length and with the front panel a(5 in main inter-embedding type ecological block A1) length consistent, front panel b(12) thickness be greater than main inter-embedding type ecological block A1(1) in front panel a(5) thickness and center is hollow-core construction; Left and right floor b(14,15) respectively connect front and back panels b(12,13) left and right half portion and form forward and backward cantilever b(16,17); Front boom b length and main inter-embedding type ecological block A1(1) in front boom a(9) length consistent; Front panel b(12) entity part, rear board b(13) and left and right floor b(14,15) surround central through hole b(18), building block B1 (2) overall left and right is highly consistent with main inter-embedding type ecological block A1 to one-tenth; Described auxiliary block of concrete B2(4) with main inter-embedding type ecological block B1(2) the completely the same but segment heights of plan structure is the half of main inter-embedding type ecological block B1.

2. the spatial intersecting inter-embedding type ecological block retaining wall system on a kind of variable slope according to claim 1, it is characterized in that: described front panel a(5) and front panel b(12) two ends be equipped with arced terminus (19), the angle about during assembling between two pieces of building blocks is adjustable.

3. the spatial intersecting inter-embedding type ecological block retaining wall system on a kind of variable slope according to claim 2, is characterized in that: use described main inter-embedding type ecological block A1 (1) and auxiliary ecological block A2 (3) can be assembled into heavy grade or the ecological retaining wall of vertical type; Use described main inter-embedding type ecological block B1 (2) and auxiliary ecological block B2 (4) that light grade or the ecological retaining wall of vertical type can be assembled into; Use described main inter-embedding type ecological block A1 (1) simultaneously, B1 (2) and auxiliary ecological block A2 (3), B2 (4) can be assembled into and become the ecological retaining wall of slope formula.

4. the spatial intersecting inter-embedding type ecological block retaining wall system on a kind of variable slope according to claim 3, it is characterized in that: described main inter-embedding type ecological block is after alternating expression is assembled into the acclive wall body of band, the front panel of each building block and the building block front panel of its upper and lower, left and right lock mutually, the exposed face in the front of front panel forms rectangle, and front panel upper end and the front panel embedding building block above it surround planting hole (20).