CN114215079B

CN114215079B - Highway slope protection technology

Info

Publication number: CN114215079B
Application number: CN202111606102.4A
Authority: CN
Inventors: 李林涛; 赖秀文; 刘栋先; 李锐平; 陈云峰; 陈利雄; 赖常文; 郭春林; 郭小雨; 肖基司; 温红媚
Original assignee: Shaoguan Zhongqun Construction Co ltd
Current assignee: Shaoguan Zhongqun Construction Co ltd
Priority date: 2021-12-25
Filing date: 2021-12-25
Publication date: 2023-06-20
Anticipated expiration: 2041-12-25
Also published as: CN114215079A

Abstract

The application relates to the technical field of expressway slope protection, in particular to an expressway slope protection process, which comprises the following steps: digging a main groove from the top of the slope to the bottom of the slope, and pouring concrete on the inner wall of the main groove to form a main flow groove; excavating auxiliary grooves on two sides of a main groove on the slope body, wherein the auxiliary grooves are formed in the horizontal direction; one end of the auxiliary groove is communicated with the main groove, and the other end of the auxiliary groove is obliquely arranged along the direction towards the slope top; a water storage block and a baffle are sequentially arranged in the auxiliary groove, the water storage block is arranged at the bottom of the auxiliary groove, and the water baffle is arranged above the water storage block; placing the edge of the baffle at the joint of the auxiliary groove and the main groove, and then backfilling soil; plants are planted on the side surfaces of the main groove and the auxiliary groove on the slope body respectively. The application has the effect of improving the survival rate of plants.

Description

Highway slope protection technology

Technical Field

The application relates to the technical field of expressway slope protection, in particular to an expressway slope protection technology.

Background

The slope protection is a collective name of various paving and planting on the slope surface in order to prevent the slope from being washed out, and the slope protection is paved on two sides of the expressway, so that the phenomenon that the slope surface is damaged when being washed out by rain is reduced. In order to improve the safety of the expressway, the side slope of the expressway needs to be effectively reinforced.

The slope protection structure related to the road in the related art comprises framework structures arranged along the direction of the slope body, an inner framework is arranged between the framework structures, a plurality of planting frames are formed between the inner framework and the framework structures, and plants are planted in the planting frames. When the plant is washed by rain, the slope body is protected by the plants in the planting frame.

Aiming at the related technology, the inventor considers that the slope is obliquely arranged, so that rainwater is not easy to remain, and the survival rate of plants is affected.

Disclosure of Invention

In order to improve the survival rate of plants, the application provides a highway slope protection process.

The application provides a highway slope protection technology adopts following technical scheme:

a highway slope protection process comprises the following steps: digging a main groove from the top of the slope to the bottom of the slope, and pouring concrete on the inner wall of the main groove to form a main flow groove;

excavating auxiliary grooves on two sides of a main groove on the slope body, wherein the auxiliary grooves are formed in the horizontal direction;

one end of the auxiliary groove is communicated with the main groove, and the other end of the auxiliary groove is obliquely arranged along the direction towards the slope top;

a water storage block and a baffle are sequentially arranged in the auxiliary groove, the water storage block is arranged at the bottom of the auxiliary groove, and the water baffle is arranged above the water storage block;

placing the edge of the baffle at the joint of the auxiliary groove and the main groove, and then backfilling soil;

plants are planted on the side surfaces of the main groove and the auxiliary groove on the slope body respectively.

Through adopting above-mentioned technical scheme, set up the retaining piece in the sub-tank, store the rainwater through the retaining piece, set up a plurality of sub-tanks and main tank simultaneously, form a plurality of planting district for the rainwater that stores in the retaining piece irrigates the plant in each planting district respectively, provides the required moisture content of growth for the plant, promotes the survival rate of plant.

Optionally, the auxiliary tank is provided with two sets of in the both sides of main tank, every group the auxiliary tank is including a plurality of auxiliary tanks that set up along the length direction interval of main tank, retaining piece and baffle and auxiliary tank all correspond and are provided with a plurality of, and is a plurality of retaining piece and baffle are arranged along the length direction of auxiliary tank and are set up, the socket has been seted up for hollow structure and one side that is close to the baffle on the retaining piece, the baffle is hollow structure and one side that is close to the retaining piece is provided with the intubate, the intubate is inserted and is established in the socket, the water inlet has been seted up to one side that the baffle is close to the top of a slope.

Through adopting above-mentioned technical scheme, in the rainwater enters into the baffle through the water inlet when raining, then enters into the retaining piece through the baffle in, store the rainwater through the retaining piece, unnecessary rainwater passes through the outside of main tank discharge slope simultaneously, and the rainwater in the retaining piece can supply vegetation to use, promotes the survival rate of plant.

Optionally, the water storage block is provided with a water diversion rope, one end of the water diversion rope is arranged in the water storage block, the other end of the water diversion rope extends along the direction towards the slope bottom, and the water diversion rope is buried under the ground.

By adopting the technical scheme, the water diversion rope is arranged on the water storage block, and rainwater in the water storage block is guided into the ground through the water diversion rope, namely, the lower part of the plant provides water for the plant.

Optionally, draw-in groove and intercommunication groove have been seted up to one side that is close to adjacent retaining piece on the retaining piece, intercommunication groove and the inside intercommunication of retaining piece, intercommunication groove and draw-in groove intercommunication, on the retaining piece with the corresponding one side of intercommunication groove be provided with fixture block and communicating pipe, the draw-in groove lock on fixture block and the adjacent retaining piece, the intercommunication groove lock on intercommunication groove and the adjacent retaining piece.

Through adopting above-mentioned technical scheme, through communicating pipe and intercommunication groove intercommunication between the retaining piece for rainwater in the retaining piece can circulate each other, makes the rainwater volume in each retaining piece the same, and then makes the plant growth vigor the same.

Optionally, a middle pipe is arranged on the side surface of the main groove, the middle pipe is arranged between two adjacent auxiliary grooves, two ends of the middle pipe are respectively connected with corresponding water storage blocks, and the middle pipe is communicated with the inside of the water storage blocks.

Through adopting above-mentioned technical scheme, set up the intermediate pipe between two retaining blocks and be used for the intercommunication two for rainwater between two retaining blocks can flow to each other in, make the rainwater content in a plurality of retaining blocks the same, make the holistic growth vigor of plant the same, promote the protection effect.

Optionally, a water outlet pipe is arranged on the slope body at a position close to the slope bottom, and the water outlet pipe is communicated with a water storage block arranged at the slope bottom.

Through adopting above-mentioned technical scheme, set up the outlet pipe, behind the rainwater content in the retaining piece surpassed the predetermined value of storage, unnecessary rainwater passes through the outside of outlet pipe discharge slope, when the drainage rainwater simultaneously, increases the mobility of rainwater in the retaining piece, promotes the quality of storing the rainwater in the retaining piece.

Optionally, a water adding pipe is arranged at a position on the slope body close to the top of the slope, and two branch pipes communicated with the middle pipe are integrally arranged at one end of the water adding pipe close to the bottom of the slope.

Through adopting above-mentioned technical scheme, set up the water pipe, accessible water pipe adds water to the retaining piece in to supply vegetation to use, promote plant survival rate.

Optionally, be provided with the detection subassembly that is arranged in detecting the water content in the retaining piece on the slope body, the detection subassembly is including detecting cover and measuring rod, the measuring rod slides in the detecting cover and sets up, the both ends of measuring rod set up respectively in the outside that detects the cover, the one end of measuring rod extends to the inside of retaining piece, the one end that the measuring rod is close to the retaining piece is provided with the showy ball that is used for driving the measuring rod and removes.

Through adopting above-mentioned technical scheme, float ball is owing to the reason come-up of rainwater in the retaining piece, and then drives the measuring staff and remove, detects the content of rainwater in the cistern through the position of measuring staff relative detection cover to judge whether need add water, make the plant leave sufficient moisture content, the vegetation of being convenient for.

Optionally, a stabilizing plate is arranged on one side, close to the top of the slope, of the baffle plate, the stabilizing plate is perpendicular to the baffle plate, and one side, close to the slope, of the stabilizing plate is flush with the slope.

Through adopting above-mentioned technical scheme, set up the stabilizer plate, after backfill, the side and the domatic parallel and level of stabilizer plate reduce the rainwater and wash away the clearance department between baffle and the soil, promote the stability of baffle.

Optionally, a side of the baffle, which is close to the water storage block, is provided with an auxiliary block for supporting the baffle, and the side faces of the auxiliary block and the water storage block are abutted.

Through adopting above-mentioned technical scheme, set up supplementary piece and retaining piece butt, support the baffle through supplementary piece, promote complex stability between baffle and the retaining piece.

Drawings

Fig. 1 is a schematic structural diagram of a highway slope protection process according to an embodiment of the present application.

Fig. 2 is a structural view of a water storage block in the highway slope protection process according to the embodiment of the present application.

Fig. 3 is a structural view of a baffle in the highway slope protection process according to the embodiment of the present application.

Fig. 4 is a structural view of an intermediate pipe in the highway slope protection process according to the embodiment of the present application.

Fig. 5 is a cut-away view of a water storage block in the highway slope protection process according to the embodiment of the present application.

Fig. 6 is a cut-away view of a baffle in the highway slope protection process according to an embodiment of the present application.

Fig. 7 is a structural view of a water pipe in the highway slope protection process according to the embodiment of the present application.

Fig. 8 is a structural view of a detection assembly in the highway slope protection process according to the embodiment of the present application.

Reference numerals: 1. a slope body; 2. a main groove; 3. a secondary groove; 4. a water storage block; 41. a water diversion rope; 42. a clamping groove; 43. a communication groove; 44. a clamping block; 45. a communicating pipe; 5. a baffle; 51. a water inlet; 52. a cannula; 53. an auxiliary block; 6. a stabilizing plate; 7. a middle tube; 71. a bellows; 72. a water outlet pipe; 8. a water supply pipe; 81. a branch pipe; 9. a detection assembly; 91. a detection rod; 911. a floating ball; 92. and (5) detecting the sleeve.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-8.

The application discloses a highway slope protection technology. The highway slope protection process comprises the following steps of

S1: digging a main groove 2 from the top of the slope to the bottom of the slope on the slope body 1, and pouring concrete on the inner wall of the main groove 2 to form a main flow groove;

s2: digging auxiliary grooves 3 on two sides of a main groove 2 on the slope body 1, wherein the auxiliary grooves 3 are formed in the horizontal direction;

s3: one end of the auxiliary groove 3 is communicated with the main groove 2, and the other end is obliquely arranged along the direction facing the slope top;

s4: a water storage block 4 and a baffle plate 5 are sequentially arranged in the auxiliary groove 3, the water storage block 4 is arranged at the bottom of the auxiliary groove 3, and the water baffle plate is arranged above the water storage block 4;

s5: placing the edge of the baffle plate 5 at the joint of the auxiliary tank 3 and the main tank 2, and then backfilling;

s6: plants are planted on the side surfaces of the main groove 2 and the auxiliary groove 3 on the slope body 1 respectively.

Referring to fig. 1 and 2, wherein, the auxiliary tank 3 is provided with two sets of, and two sets of auxiliary tanks 3 set up respectively in the both sides of main tank 2, and every group auxiliary tank 3 includes a plurality ofly, and a plurality of auxiliary tanks 3 are along the parallel interval setting of length direction of main tank 2, separate into a plurality of planting district with slope body 1 inclined plane through main tank 2 and auxiliary tank 3, plant the plant in planting the district, when raining, drain the rainwater in each planting district to main tank 2 through baffle 5, reduce the effect of washing away of rainwater to the plant, protect slope body 1.

Referring to fig. 3 and 4, retaining block 4 and baffle 5 and every sub-tank 3 all are provided with a plurality of, a plurality of retaining blocks 4 and baffle 5 are arranged along the length direction of sub-tank 3 and are set up, retaining block 4 is hollow structure, and the socket has been seted up to one side that is close to baffle 5, baffle 5 is hollow structure, and water inlet 51 has been seted up to one side that is close to the slope top, one side that is close to retaining block 4 on baffle 5 is provided with intubate 52, intubate 52 and baffle 5's inside intercommunication, intubate 52 inserts in the socket, the one end that deviates from baffle 5 on intubate 52 is provided with the guide angle, so that intubate 52 inserts in the socket, one side that is close to retaining block 4 on the baffle 5 is provided with auxiliary block 53, auxiliary block 53 is the triangle form, and the side and the retaining block 4 butt of auxiliary block 53 support baffle 5, promote baffle 5's stability. Rainwater in the planting area flows to baffle 5 departments, and baffle 5 slope setting is with rainwater drainage to in the main tank 2, through at the in-process that flows, enters into baffle 5 through water inlet 51, and then enters into retaining piece 4 in, stores the rainwater.

Referring to fig. 5 and 6, a stabilizing plate 6 is arranged on one side, close to the top of a slope, of the baffle plate 5, the stabilizing plate 6 is perpendicular to the baffle plate 5 and is arranged at intervals with the water storage blocks 4, after backfilling, the upper surface of the stabilizing plate 6 is flush with the slope, a water inlet 51 is formed in one side, deviating from the ground, of the stabilizing plate 6, and when raining, the gap between the baffle plate 5 and soil is washed by rainwater is reduced, so that the stability of the baffle plate 5 is improved.

Referring to fig. 2 and 3, a water diversion rope 41 is arranged on the water storage block 4, one end of the water diversion rope 41 is arranged in the water storage block 4, the other end of the water diversion rope 41 is arranged on one side of the baffle 5 deviating from the slope top and extends along the direction of the slope top, the water diversion rope 41 is arranged outside the water storage block 4 and corresponds to the gap between the stabilizing plate 6 and the water storage block 4, after soil is returned, the water diversion rope 41 is buried in the soil, namely corresponds to the root of a plant, rainwater stored in the water storage block 4 is guided into the soil through the water diversion rope 41, and water is provided for the plant for plant growth.

Referring to fig. 5 and 6, a clamping groove 42 and a communication groove 43 are formed in one side of the water storage block 4, which is close to the adjacent water storage block 4, the communication groove 43 is communicated with the inside of the water storage block 4, the clamping groove 42 is formed in the side wall of the water storage block 4, the clamping groove 42 is communicated with the communication groove 43, a communication pipe 45 and a clamping block 44 are arranged on one side of the water storage block 4, which corresponds to the clamping groove 42, the communication pipe 45 corresponds to the communication groove 43 on the adjacent water storage block 4, the clamping block 44 corresponds to the clamping groove 42 on the adjacent water storage block 4, the water storage block 4 is placed in the auxiliary groove 3 during construction, then the other water storage block 4 is placed in the clamping groove 42, the two water storage blocks 4 are inserted into the communication groove 43 through the communication pipe 45 to be connected, and meanwhile the clamping block 44 is buckled with the clamping groove 42 to fix the two water storage blocks 4. Promote the stability of a plurality of retaining pieces 4, communicate a plurality of retaining pieces 4 simultaneously for the water yield that stores in every retaining piece 4 is the same, makes the plant growth vigor even.

Referring to fig. 3 and 4, a group of intermediate pipes 7 are respectively provided at both sides of the main tank 2, each group of intermediate pipes 7 includes a plurality of intermediate pipes 7, each intermediate pipe 7 is provided between two sub-tanks 3, and the ends of the intermediate pipes 7 are provided near the middle position of the sub-tank 3, and the ends of the intermediate pipes 7 are respectively connected with the corresponding water storage blocks 4 and communicate with the inside of the water storage blocks 4. The rainwater in the water storage blocks 4 can flow through the middle pipe 7, the rainwater quantity among the water storage blocks 4 is the same, the plants on the whole slope surface grow uniformly, and the protection effect is improved.

Referring to fig. 3 and 4, a bellows 71 is integrally provided near the end of the intermediate pipe 7 so that the end of the intermediate pipe 7 can be rotated to an arbitrary angle with respect to the intermediate pipe 7. When the water storage blocks 4 in the adjacent two auxiliary grooves 3 are offset during installation, the ends of the intermediate pipes 7 can be adjusted through the corrugated pipes 71, so that the intermediate blocks are connected with the water storage blocks 4 for installation. The position that is close to the slope bottom on the slope body 1 is provided with outlet pipe 72, and the one end and the retaining piece 4 intercommunication of outlet pipe 72, and the other end extends to the outside of slope body 1, and outlet pipe 72 and intermediate tube 7 set up on same straight line, and when the rainwater in the retaining piece 4 is too much, accessible outlet pipe 72 discharges to the outside of slope body 1, and simultaneously when the rainwater is too much, the accessible constantly discharges unnecessary rainwater, carries out the circulation to the rainwater in the retaining piece 4 and updates, promotes the quality of storing the rainwater.

Referring to fig. 2 and 7, a water adding pipe 8 is provided at a position close to the top of the slope in the slope 1, two branch pipes 81 are integrally provided at one end of the water adding pipe 8 close to the bottom of the slope, the two branch pipes 81 are respectively provided corresponding to both sides of the main tank 2, the end of the branch pipe 81 is communicated with the inside of the water storage block 4, and one end of the water adding pipe 8, which is away from the branch pipe 81, extends to the outside of the slope 1. When the plant needs to irrigate, accessible water pipe 8 adds water to retaining piece 4 in, and a plurality of retaining piece 4 inside intercommunication simultaneously for all add water in a plurality of retaining pieces 4 when adding water, then guide to in the soil through diversion rope 41, simplify irrigation operation, the rainwater volume in a plurality of retaining pieces 4 is the same simultaneously, makes the plant evenly grow, promotes the effect of irrigation.

Referring to fig. 7 and 8, a detection assembly 9 for judging the rainwater content in the water storage block 4 is provided on the slope body 1, the detection assembly 9 comprises a detection sleeve 92 and a detection rod 91, the detection rod 91 is slidably arranged in the detection sleeve 92, the detection rod 91 is arranged in the vertical direction, two ends of the detection rod 91 are arranged outside the detection sleeve 92, the end part of the detection rod 91 extends to the inside of the water storage block 4 and is slidably arranged in the vertical direction on the water storage block 4, and a float ball is arranged at the end part of the detection rod 91, which is close to one end of the water storage block 4. Along with the quantity of the rainwater in the water storage block 4, the floating ball 911 drives the detection rod 91 to move in the detection sleeve 92, so that the storage quantity of the rainwater in the water storage block 4 can be judged through the position of the detection rod 91 in the detection sleeve 92, and water can be timely added into the water storage block 4 to irrigate plants.

The implementation principle of the application is as follows: the water storage block 4 is buried in the auxiliary groove 3, and the water inlet 51 is formed in the baffle plate 5, so that when raining, rainwater enters the water storage block 4 through the water inlet 51, water in the water storage block 4 is guided into the ground through the water diversion rope 41, namely, the planting area, water is provided for plant growth, and the survival rate of plants is improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. A highway slope protection process is characterized in that: comprises the following steps of the method,

digging a main groove (2) from the top of the slope to the bottom of the slope on the slope body (1), and pouring concrete on the inner wall of the main groove (2) to form a main flow groove;

digging auxiliary grooves (3) on two sides of a main groove (2) on the slope body (1);

one end of the auxiliary groove (3) is communicated with the main groove (2), and the other end of the auxiliary groove is obliquely arranged along the direction towards the slope top;

a water storage block (4) and a baffle (5) are sequentially arranged in the auxiliary groove (3), the water storage block (4) is arranged at the bottom of the auxiliary groove (3), and the water baffle is arranged above the water storage block (4);

placing the edge of the baffle (5) at the joint of the auxiliary groove (3) and the main groove (2), and then backfilling soil;

plants are planted on the side surfaces of the main groove (2) and the auxiliary groove (3) on the slope body (1) respectively;

the auxiliary grooves (3) are arranged on two sides of the main groove (2), each group of auxiliary grooves (3) comprises a plurality of auxiliary grooves (3) which are arranged along the length direction of the main groove (2) at intervals, a plurality of water storage blocks (4) and baffle plates (5) and auxiliary grooves (3) are correspondingly arranged, the water storage blocks (4) and baffle plates (5) are arranged along the length direction of the auxiliary grooves (3), a jack is formed in one side of each water storage block (4) which is of a hollow structure and is close to the baffle plates (5), a cannula (52) is arranged on one side of each baffle plate (5) which is of a hollow structure and is close to the water storage block (4), a water inlet (51) is formed in one side of each cannula (52) which is close to the top of a slope, a clamping groove (42) and a communicating groove (43) are formed in one side of each water storage block (4) which is close to the adjacent water storage block (4), the communicating groove (43) and the water storage block (4) are internally communicated, a communicating groove (43) and the communicating groove (43) are correspondingly formed in one side of each water storage block (4) which is close to the corresponding communicating groove (44), the utility model discloses a water storage device, including baffle (5), connecting groove (43), adjacent retaining piece (4), connecting groove (43) lock on connecting groove (43), one side that is close to the top of a slope on baffle (5) is provided with stabilizer plate (6), stabilizer plate (6) perpendicular to baffle (5) set up, stabilizer plate (6) are close to domatic one side and domatic parallel and level, one side that is close to retaining piece (4) on baffle (5) is provided with auxiliary block (53) that are used for carrying out support to baffle (5), the side butt of auxiliary block (53) and retaining piece (4).

2. The highway slope protection process according to claim 1, wherein: the water storage block (4) is provided with a water diversion rope (41), one end of the water diversion rope (41) is arranged in the water storage block (4), the other end of the water diversion rope extends along the direction towards the slope bottom, and the water diversion rope (41) is buried under the ground.

3. The highway slope protection process according to claim 2, wherein: the side of main tank (2) is provided with intermediate pipe (7), intermediate pipe (7) are provided with between two adjacent auxiliary tanks (3), retaining piece (4) that correspond respectively in the both ends of intermediate pipe (7) are connected, intermediate pipe (7) and the inside intercommunication of retaining piece (4).

4. A highway slope protection process according to claim 3 wherein: the water storage device is characterized in that a water outlet pipe (72) is arranged at the position, close to the slope bottom, of the slope body (1), and the water outlet pipe (72) is communicated with a water storage block (4) arranged at the slope bottom.

5. The highway slope protection process according to claim 4, wherein: the water adding pipe (8) is arranged at the position, close to the top of the slope, of the slope body (1), and two branch pipes (81) communicated with the middle pipe (7) are integrally arranged at one end, close to the bottom of the slope, of the water adding pipe (8).

6. The highway slope protection process according to claim 5, wherein: the rain water detection device is characterized in that a detection assembly (9) for detecting the rain water content in the water storage block (4) is arranged on the slope body (1), the detection assembly (9) comprises a detection sleeve (92) and a detection rod (91), the detection rod (91) is arranged in the detection sleeve (92) in a sliding mode, two ends of the detection rod (91) are respectively arranged outside the detection sleeve (92), one end of the detection rod (91) extends to the inside of the water storage block (4), and one end of the detection rod (91) close to the water storage block (4) is provided with a floating ball (911) for driving the detection rod (91) to move.