CN111005411A - Retaining wall monitoring system - Google Patents

Abstract

In practical application, the inverted triangle of the retaining wall body is arranged on the soil slope, the triangle has stability, the contact area of the retaining wall body and the soil layer is increased, and the retaining wall is supported by the supporting wall, so that the stability of the retaining wall is improved; the retaining wall body is provided with the fixing net between the soil layers, so that the surface of the soil layers can be effectively locked, and the stability of the soil layers is improved; set up infrared distance meter at the retaining wall top, the distance information of above-mentioned infrared distance meter real-time supervision infrared distance meter body apart from the soil layer to with above-mentioned distance information transmission to controller, the controller passes through communication module with above-mentioned distance information and sends to backend server, and backend server feeds back above-mentioned distance information to the server, can directly monitor the retaining wall body at the customer end in real time with the realization user.

Description

Retaining wall monitoring system

Technical Field

The invention relates to the technical field of retaining wall bodies, in particular to a retaining wall monitoring system.

Background

The retaining wall body is a structure for supporting roadbed filling or hillside soil and preventing the filling or soil from deforming and destabilizing. In the cross section of the retaining wall body, the part which is directly contacted with the supported soil body is called a wall back; the part facing the wall back and being empty is called the wall surface; the part directly contacting with the foundation is called a substrate; the top surface of the wall opposite the base is called the wall top; the front end of the base is called a wall toe; the rear end of the base is called a butt.

Greening vegetation on the existing retaining wall body is planted manually usually when the retaining wall body is installed, and after planting, the survival situation of the vegetation can not be considered, and when the area where the retaining wall body is located is dry for a long time, plants planted on the retaining wall body die due to water shortage, and then water and soil loss is caused.

Disclosure of Invention

An object of an embodiment of the present invention is to provide a retaining wall monitoring system for supplying water to plants planted on a retaining wall body 1 in a normal manner, so that the plants grow in a normal manner. The specific technical scheme is as follows:

the embodiment of the invention provides a retaining wall monitoring system based on the Internet of things, which comprises: the system comprises a retaining wall body, a supporting wall, a reinforcing structure, a fixing net, an infrared distance meter, a communication module, a controller, a background server and a client;

the retaining wall body is in contact with a soil layer, the inverted triangle of the retaining wall body is arranged on a soil layer slope, the supporting wall is of a right-angle triangular prism structure, the side surface corresponding to one right-angle side of the supporting wall is fixedly connected with the retaining wall body, and the side surface corresponding to the other right-angle side of the supporting wall is fixed on a horizontal ground;

the fixing net is locked on the surface layer of the retaining wall body and is positioned between the retaining wall body and the soil layer; the infrared distance meter is arranged at the top of the retaining wall body and connected with the controller, and the working end of the infrared distance meter faces the soil layer;

the reinforcing structure is used for fixing the retaining wall body on a soil layer;

the controller is connected with the communication module; the communication module is in wireless connection with the background server, and the background server is in wireless connection with the client.

Optionally, the infrared distance measuring instrument includes transmission line, infrared emission head, infrared organism, infrared receiving head, infrared emission head locates infrared organism inclined plane right side, and the left side is equipped with infrared receiving head, infrared organism becomes triangle-shaped, through the transmission line with the controller is connected.

Optionally, the communication module is any one of an NB-LOT module, an LORA module, and a ZigBee module.

Optionally, the device also comprises a water storage tank, a first drainage pipeline, a second drainage pipeline, an irrigation pipeline, an automatic switch, a foundation seed ploughing layer, a detection structure and a drainage channel;

the water storage tank is arranged at the top of the retaining wall body, the water storage tank is arranged in the retaining wall body, and the water storage tank is communicated with the water storage tank through the first drainage pipe;

the foundation plough layer is arranged on the side surface corresponding to the inclined edge of the supporting wall in a terrace shape, one end of the irrigation pipeline is communicated with the reservoir, and the other end of the irrigation pipeline supplies water for the foundation plough layer;

the reservoir is communicated with the drainage channel through the second drainage pipeline;

the automatic switch is arranged at the opening of the second drainage pipeline and is used for controlling the second drainage pipeline to be switched on or off;

the detection structure is arranged in the retaining wall body and is used for detecting the water level in the water storage tank; the communication module is arranged on the side surface of the retaining wall body, and the detection structure is connected with the communication module;

the controller is arranged in the detection structure and is connected with the automatic switch;

the reinforced structure is used for fixing the retaining wall body on a soil layer.

Optionally, the system further comprises a water pump, a power supply, a water pumping pipeline and an automatic valve;

one end of the water pumping pipeline is connected with underground shallow water, the other end of the water pumping pipeline is connected with a water inlet of the water pump, and a water outlet of the water pump is connected with the reservoir; the automatic valve is arranged in the water pumping pipeline and used for controlling the switching on or off of the water pumping pipeline, and the automatic valve is connected with the controller.

Optionally, a fixing structure is arranged between the support wall and the ground, and the fixing structure is used for fixing the support wall on the ground.

Optionally, the detection structure includes a housing, a water level sensor, and a crack sensor; the water level sensor and the crack sensor are respectively connected with the controller, and the shell is welded in the retaining wall body.

Optionally, the controller is connected to the communication module through a data transmission line.

In practical application, the inverted triangle of the retaining wall body is arranged on the soil slope, the triangle has stability, the contact area of the retaining wall body and the soil layer is increased, and the retaining wall is supported by the supporting wall, so that the stability of the retaining wall is improved; the retaining wall body is provided with the fixing net between the soil layers, so that the surface of the soil layers can be effectively locked, and the stability of the soil layers is improved; set up infrared distance meter at the retaining wall top, the distance information of above-mentioned infrared distance meter real-time supervision infrared distance meter body apart from the soil layer to with above-mentioned distance information transmission to controller, the controller passes through communication module with above-mentioned distance information and sends to backend server, and backend server feeds back above-mentioned distance information to the server, can directly monitor the retaining wall body at the customer end in real time with the realization user.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural diagram of a retaining wall monitoring system according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of another retaining wall monitoring system according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention.

In order to normally supply water to plants planted on the retaining wall body 1 so that the plants can normally grow, the embodiment of the invention provides a retaining wall monitoring system.

Referring to fig. 1, an embodiment of the present invention provides a retaining wall monitoring system based on an internet of things, including: the retaining wall comprises a retaining wall body 1, a supporting wall 2, a reinforcing structure 9, a fixed net 21, an infrared distance meter 22, a communication module 13, a controller 14, a background server 23 and a client 24;

the retaining wall body 1 is in contact with a soil layer 15, the inverted triangle of the retaining wall body 1 is arranged on a slope of the soil layer 15, the supporting wall 2 is of a right-angle triangular prism structure, the side surface corresponding to one right-angle side of the supporting wall 2 is fixedly connected with the retaining wall body 1, and the side surface corresponding to the other right-angle side of the supporting wall 2 is fixed on the horizontal ground;

the fixing net 21 is locked on the surface layer of the retaining wall body 1, and the fixing net 21 is positioned between the retaining wall body 1 and the soil layer 15; the infrared distance meter 22 is arranged at the top of the retaining wall body 1, the infrared distance meter 22 is connected with the controller 14, and the working end of the infrared distance meter 22 faces the soil layer 15;

the reinforcing structure 9 is used for fixing the retaining wall body 1 on a soil layer 15;

the controller 14 is connected with the communication module 13; the communication module 13 is wirelessly connected to the background server 23, and the background server 23 is wirelessly connected to the client 24.

Specifically, in practical application, the retaining wall body 1 is arranged on a slope of a soil layer 15 in an inverted triangle manner, the triangular shape has stability, so that the contact area between the retaining wall body 1 and the soil layer 15 is increased, the retaining wall is supported by the supporting wall 2, and the stability of the retaining wall is improved; the retaining wall body 1 is provided with the fixing net 21 between the soil layers 15, so that the surface of the soil layer 15 can be effectively locked, and the stability of the soil layer 15 is improved; set up infrared distance meter 22 at retaining wall top, the distance information of above-mentioned infrared distance meter 22 body apart from soil layer 15 of above-mentioned infrared distance meter 22 real-time supervision to with above-mentioned distance information transmission to controller 14, controller 14 sends above-mentioned distance information to backend server 23 through communication module 13, and backend server 23 feeds back above-mentioned distance information to the server, in order to realize that the user can directly monitor retaining wall body 1 at client 24 in real time.

Further, the device also comprises a water storage tank 3, a water storage tank 4, a first drainage pipeline 5, a second drainage pipeline 6, an irrigation pipeline 7, an automatic switch 8, a basic seed ploughing layer 10, a detection structure 12 and a drainage channel 11;

the water storage tank 3 is arranged at the top of the retaining wall body 1, the water storage tank 4 is arranged inside the retaining wall body 1, and the water storage tank 3 is communicated with the water storage tank 4 through the first drainage pipe;

the foundation plough layer 10 is arranged on the side surface corresponding to the inclined edge of the supporting wall 2 in a terrace shape, one end of the irrigation pipeline 7 is communicated with the reservoir 4, and the other end of the irrigation pipeline supplies water for the foundation plough layer 10;

the reservoir 4 is communicated with the drainage channel 11 through the second drainage pipeline 6;

the automatic switch 8 is arranged at the opening of the second drainage pipeline 6, and the automatic switch 8 is used for controlling the conduction or the closing of the second drainage pipeline 6;

the detection structure 12 is arranged in the retaining wall body 1, and the detection structure 12 is used for detecting the water level in the reservoir 4; the communication module 13 is arranged on the side surface of the retaining wall body 1, and the detection structure 12 is connected with the communication module 13;

the controller 14 is arranged in the detection structure 12, and the controller 14 is connected with the automatic switch 8.

Specifically, in the monitoring system of the retaining wall body 1 according to the embodiment of the present invention, in practical applications, when the retaining wall body 1 is located in a dry area, and when the dry area rains, rainwater falls on the retaining wall body 1, rainwater is collected in the water storage tank 3 disposed at the top of the retaining wall body 1 and is transmitted to the water storage tank 4 through the first drainage pipe 5, and when the detection device detects that the water level in the water storage tank 4 does not reach a peak, the controller 14 controls the automatic switch 8 to be turned off, at this time, water introduced into the water storage tank 4 through the first drainage pipe 5 is stored, and on the other hand, water in the water storage tank 4 flows to the basic planting layer 10 through the irrigation pipe 7 to supply water to the basic planting layer 10, and because the water storage tank 4 is located in the retaining wall body 1, the volatilization amount of the stored water is greatly reduced, which is beneficial to long-term water storage, and then realize for the basic plough seed layer 10 supplies water, after detecting the water level in the cistern 4 and reaching the maximum value as the detection structure 12, the controller 14 control automatic switch 8 is opened, at this moment the second drainage pipe 6 is discharged the water in the cistern 4 into the drainage canal 11, discharge, so as to guarantee to discharge the surplus water in the cistern 3, avoid the water overflow in the cistern 3, produce the damage to the basic plough seed layer 10, adopt the retaining wall body 1 monitoring system that the embodiment of the invention provides, set up the cistern 4, the surplus water volume is stored in the cistern 4 when raining, in the drought, can utilize the water stored in the cistern 4 to supply water to the basic plough seed layer 10, so as to guarantee to plant the plant of the basic plough seed layer 10 and supply water, and then guarantee the normal growth of plant.

Optionally, the communication module 13 is any one of an NB-LOT module, an LORA module, and a ZigBee module, where the communication module 13 is an input module.

Optionally, the infrared distance measuring device 22 includes a transmission line, an infrared emitting head, an infrared machine body, and an infrared receiving head, the infrared emitting head is disposed on the right side of the inclined plane of the infrared machine body, the infrared receiving head is disposed on the left side, the infrared machine body is triangular, and is connected to the controller 14 through the transmission line.

Optionally, the system further comprises a water pump 16, a power supply 17, a water pumping pipeline 18 and an automatic valve 19;

one end of the water pumping pipeline 18 is connected with the underground shallow water, the other end of the water pumping pipeline 18 is connected with a water inlet of the water pump 16, and a water outlet of the water pump 16 is connected with the water storage tank 4; the automatic valve 19 is arranged in the water pumping pipeline 18, the automatic valve 19 is used for controlling the conduction or the closing of the water pumping pipeline 18, and the automatic valve 19 is connected with the controller 14.

Specifically, in practical application, when the region where the retaining wall body 1 is located is dry for a long time, the detection structure 12 monitors the water level in the reservoir 4 in real time, the controller 14 receives the monitoring data, when the water level in the reservoir 4 is low, the controller 14 controls the water pump 16 to operate, and simultaneously opens the automatic valve 19, the water pump 16 pumps shallow groundwater into the reservoir 4, and when the detection structure 12 detects that the water level in the reservoir 4 is at the maximum, the controller 14 controls the automatic valve 19 to close, and controls the water pump 16 to stop operating.

It should be noted that, in the above-mentioned scheme for pumping the shallow groundwater layer, the existing groundwater mining technology may be used, and the small-sized pipeline may be conducted to the shallow groundwater layer, so that the technical scheme for pumping the shallow groundwater layer to the reservoir 4 by using the water pump 16 according to the embodiment of the present invention is implemented.

It should be noted that the automatic valve 19 is an existing product and can be purchased directly.

Further, a fixing structure 20 is disposed between the support wall 2 and the ground, and the fixing structure 20 is used for fixing the support wall 2 on the ground. The fixing structure 20 is adopted to fix the support wall 2 with the ground, so that the connection degree of the support wall 2 and the ground is further improved, and the stability of the retaining wall body 1 is indirectly improved.

Further, the detection structure 12 comprises a shell, a water level sensor and a crack sensor; the water level sensor and the crack sensor are respectively connected with the controller 14, and the shell is welded in the retaining wall body 1. The water level sensor is arranged in the reservoir 4 and used for detecting the water level in the reservoir 4, and the crack sensor is arranged in the reservoir 4 and used for detecting the current state of the inner wall of the reservoir 4.

Specifically, in the retaining wall body 1 provided in the embodiment of the present invention, the communication module 13 is arranged, the communication module 13 receives the monitoring data transmitted by the controller 14, and transmits the monitoring data to the client 24 in a wireless transmission manner, so that a user using the client 24 can monitor the water level condition and the crack condition of the reservoir 44 in real time, thereby realizing remote monitoring, and knowing the operation condition of the retaining wall body 1 provided in the embodiment of the present invention in time, when the retaining wall body 1 has a problem, a worker can find and make a solution corresponding to the problem in time.

Further, the controller 14 is connected to the communication module 13 through a data transmission line. The data transmission line connection mode is adopted, the stability of data transmission is improved, and the problem that the limitation is more in wireless transmission is avoided, for example, when a network signal is poor, a wireless transmission signal is unstable.

In practical application, the retaining wall body 1 is arranged on a slope of a soil layer 15 in an inverted triangle manner, the triangle is used for having stability, the contact area between the retaining wall body 1 and the soil layer 15 is increased, and the retaining wall is supported by the supporting wall 2, so that the stability of the retaining wall is improved; the retaining wall body 1 is provided with the fixing net 21 between the soil layers 15, so that the surface of the soil layer 15 can be effectively locked, and the stability of the soil layer 15 is improved; the method comprises the steps that an infrared distance meter 22 is arranged at the top of the retaining wall, the infrared distance meter 22 monitors distance information between a body of the infrared distance meter 22 and a soil layer 15 in real time and sends the distance information to a controller 14, the controller 14 sends the distance information to a background server 23 through a communication module 13, and the background server 23 feeds the distance information back to the server, so that a user can directly monitor the retaining wall body 1 at a client 24 in real time; on the other hand, in practical application, when the retaining wall body 1 is located in a dry area and when the dry area rains, rainwater falls on the retaining wall body 1, the water storage tank 3 arranged at the top of the retaining wall body 1 stores rainwater, the collected rainwater is transmitted to the water storage tank 4 through the first drainage pipeline 5, when the detection device detects that the water level in the water storage tank 4 does not reach the peak, the controller 14 controls the automatic switch 8 to be closed, at the moment, the water led into the water storage tank 4 through the first drainage pipeline 5 is stored, on the other hand, the water in the water storage tank 4 flows to the basic planting layer 10 through the irrigation pipeline 7 to supply water for the basic planting layer 10, and as the water storage tank 4 is located in the retaining wall body 1, the volatilization amount of the stored water is greatly reduced, thereby being beneficial to long-term water storage and further realizing water supply for the basic planting layer 10, when the detection structure 12 detects that the water level in the water storage tank 4 reaches the, the controller 14 controls the automatic switch 8 to be switched on, at the moment, the second drainage pipeline 6 drains water in the water storage tank 4 into the drainage channel 11 to be drained, so that redundant water in the water storage tank 3 is guaranteed to be drained, the phenomenon that the water in the water storage tank 3 overflows and damages the basic seed ploughing layer 10 is avoided, the retaining wall body 1 monitoring system provided by the embodiment of the invention is provided with the water storage tank 4, the redundant water quantity in rain is stored in the water storage tank 4, and in drought, the water stored in the water storage tank 4 can be used for supplying water to the basic seed ploughing layer 10, so that water supply for plants planted in the basic seed ploughing layer 10 is guaranteed, and normal growth of the plants is further guaranteed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

All the embodiments in the present specification are described in a related manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments. The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (8)

1. The utility model provides a retaining wall monitoring system based on thing networking which characterized in that includes: the system comprises a retaining wall body, a supporting wall, a reinforcing structure, a fixing net, an infrared distance meter, a communication module, a controller, a background server and a client;

the retaining wall body is in contact with a soil layer, the inverted triangle of the retaining wall body is arranged on a soil layer slope, the supporting wall is of a right-angle triangular prism structure, the side surface corresponding to one right-angle side of the supporting wall is fixedly connected with the retaining wall body, and the side surface corresponding to the other right-angle side of the supporting wall is fixed on a horizontal ground;

the fixing net is locked on the surface layer of the retaining wall body and is positioned between the retaining wall body and the soil layer; the infrared distance meter is arranged at the top of the retaining wall body and connected with the controller, and the working end of the infrared distance meter faces the soil layer;

the reinforcing structure is used for fixing the retaining wall body on a soil layer;

the controller is connected with the communication module; the communication module is in wireless connection with the background server, and the background server is in wireless connection with the client.

2. A retaining wall monitoring system based on thing networking of claim 1, characterized in that, infrared range finder includes transmission line, infrared emission head, infrared organism, infrared receiving head, infrared emission head locates infrared organism inclined plane right side, and the left side is equipped with infrared receiving head, infrared organism becomes triangle-shaped, is connected with the controller through the transmission line.

3. A retaining wall monitoring system according to claim 2, characterized in that the communication module is any one of NB-LOT module, LORA module, ZigBee module.

4. The retaining wall monitoring system of claim 1, further comprising a reservoir, a water reservoir, a first drainage conduit, a second drainage conduit, an irrigation conduit, an automatic switch, a foundation planting layer, a detection structure, a drainage channel;

the water storage tank is arranged at the top of the retaining wall body, the water storage tank is arranged in the retaining wall body, and the water storage tank is communicated with the water storage tank through the first drainage pipe;

the foundation plough layer is arranged on the side surface corresponding to the inclined edge of the supporting wall in a terrace shape, one end of the irrigation pipeline is communicated with the reservoir, and the other end of the irrigation pipeline supplies water for the foundation plough layer;

the reservoir is communicated with the drainage channel through the second drainage pipeline;

the automatic switch is arranged at the opening of the second drainage pipeline and is used for controlling the second drainage pipeline to be switched on or off;

the detection structure is arranged in the retaining wall body and is used for detecting the water level in the water storage tank; the communication module is arranged on the side surface of the retaining wall body, and the detection structure is connected with the communication module;

the controller is arranged in the detection structure and is connected with the automatic switch;

the reinforced structure is used for fixing the retaining wall body on a soil layer.

5. A retaining wall monitoring system according to claim 1, further comprising a water pump, a power source, a water pumping conduit, an automatic valve;

one end of the water pumping pipeline is connected with underground shallow water, the other end of the water pumping pipeline is connected with a water inlet of the water pump, and a water outlet of the water pump is connected with the reservoir; the automatic valve is arranged in the water pumping pipeline and used for controlling the switching on or off of the water pumping pipeline, and the automatic valve is connected with the controller.

6. A retaining wall monitoring system according to claim 1 wherein a securing structure is provided between the buttress and the ground for securing the buttress to the ground.

7. A retaining wall monitoring system according to claim 1, characterized in that the detection structure comprises a housing, a water level sensor, a crack sensor; the water level sensor and the crack sensor are respectively connected with the controller, and the shell is welded in the retaining wall body.

8. A retaining wall monitoring system according to claim 1 wherein the controller is connected to the communication module by a data transmission line.

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