CN210466169U - Automatic control device for recharge - Google Patents

Abstract

The utility model provides an automatic control device for recharging, which comprises a main pipeline, a plurality of recharging well groups and branch pipelines for communicating the main pipeline with the recharging well groups, wherein each recharging well group comprises a recharging well and a standby well, each branch pipeline is provided with a flow measuring and controlling device, each recharging well and the standby well are internally provided with a water level gauge, a communicating pipeline is communicated between the recharging well and the standby well in the same group, and the communicating pipeline is provided with an automatic control water pump; the water level meter is characterized by also comprising a monitor which is in wireless connection with the water level meter and the flow measuring and controlling device, wherein when the measured water level exceeds the preset water level range, the monitor can adjust the flow measuring and controlling device so as to adjust the water level to be within the preset water level range; when the measured water level meets the water level requirement and the flow is smaller than the preset flow value, the monitor can start the standby well to wash the recharging well.

Description

Automatic control device for recharge

Technical Field

The utility model relates to a groundwater engineering technical field, more specifically say, relate to an automatic control device recharges.

Background

Recharge is one of the important ways of protecting underground water, and engineering recharge mainly takes well recharge as the main factor. Due to factors such as uneven stratum, construction process and quality, the recharging wells have large difference, the recharging water quantity of each recharging well cannot be effectively controlled due to difficulty in detection, the recharging and well washing are not timely, the recharging efficiency and the well washing efficiency are low, and the effect is not ideal.

Therefore, how to improve the efficiency of recharging and well washing is a technical problem that needs to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a recharge automated control device has solved the untimely technical problem with recharge inefficiency of recharge well flushing effectively, guarantees recharge effect and sustainability.

The utility model provides a recharge automated control device, including trunk line, a plurality of recharge well group and be used for respectively communicating the trunk line with each group the branch pipe way of recharge well group, recharge well group includes recharge well and reserve well, installs on each branch pipe way and is used for monitoring and control the flow measurement and control ware of branch pipe way flow, be equipped with the fluviograph that is used for measuring the water level in each recharge well and each reserve well, all communicate between recharge well and the reserve well of the same group has the communicating pipe, install the automatic control water pump on the communicating pipe way;

the flow measuring and controlling device is used for measuring and controlling the water level of the recharge well, and comprises a flow measuring and controlling device which is used for wirelessly connecting the water level meter and the flow measuring and controlling device and receiving a water level signal and a flow signal; and when the measured water level of the recharging well meets the water level requirement but the flow is smaller than a preset flow value, the monitor can start the standby well to continue recharging and wash the recharging well.

Preferably, the monitor comprises:

the receiver is used for receiving water level data and flow data;

a memory for storing the water level data and the flow data;

the processor is used for comparing the water level data with a water level preset range and the flow data with a preset flow value and calculating the opening of the flow measuring and controlling device or the opening of the automatic control water pump according to a comparison result;

and the controller is used for respectively adjusting the opening degree of the valve of the flow measuring and controlling device and the opening degree of the automatic control water pump.

Preferably, the flow measurement and control device comprises a flow meter and a flow controller, the flow controller and the flow meter are respectively arranged at the upper end and the lower end of the communicating pipeline, and the flow meter and the flow controller are both in wireless connection with the monitor.

Preferably, the water level gauge, the flow meter, the flow controller and the self-control water pump are all internally provided with a GPRS wireless communication unit for communicating data with the monitor through a network.

Preferably, the communication pipeline is an arch-shaped overhead pipeline.

Preferably, the automatic control water pump further comprises two filters which are arranged on the communication pipeline and used for filtering impurities, and the two filters are respectively arranged on two sides of the automatic control water pump.

Preferably, the monitor further comprises a display for displaying the flow data and the water level data.

Preferably, the monitor further comprises an alarm for sounding an audible alarm when the flow data is below a flow safety value.

Compared with the prior art, the automatic control device for recharging provided by the utility model can realize the detection of the water level and the water flow of the recharging well by installing the water level meters inside the recharging well and the standby well and installing the flow measuring and controlling device on the branch pipeline; a communicating pipeline is arranged between the recharging well and the standby well in the same group, and an automatic control water pump is arranged on the communicating pipeline, so that the adjustment and control of water flow direction and flow in the well flushing process are realized. In addition, the water level meter, the flow measuring and controlling device, the automatic control water pump and the monitor are wirelessly connected, data intercommunication is achieved through the network and the monitor, when the water level exceeds a preset water level range, the monitor adjusts the water amount through the control flow measuring and controlling device, and then the water level is adjusted to a normal range; when the water level of the recharging well is normal and the flow rate is lower than the preset flow rate value, the monitor starts the automatic control water pump to realize the well washing of the recharging well and the recharging operation of the standby well. Therefore, the automatic monitoring of the water level and the flow in the recharging process of the recharging well and the automatic control of the well washing process of the recharging well are realized, the recharging and well washing efficiencies are improved, the normal operation of each recharging well group is ensured, and the service life of each recharging well group is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural view of an automatic recharge control device provided by the present invention;

fig. 2 is a flowchart of the automatic recharge control device provided by the present invention.

Wherein, 1-main pipeline, 2-branch pipeline, 3-recharging well, 4-standby well, 5-water level meter, 6-communicating pipeline, 7-automatic control water pump, 8-monitor, 9-flowmeter, 10-flow controller, 11-filter.

Detailed Description

It should be noted that the terms "up" and "down" as used herein refer to the up and down directions in fig. 1. All directional terms used herein are based on the common usage of those skilled in the art and the accompanying drawings of the specification, and their presence should not affect the scope of the present invention.

In order to make the technical field of the present invention better understand, the present invention will be described in detail with reference to the accompanying drawings and the detailed description.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an automatic recharge control device according to the present invention.

The utility model provides a recharge automated control device, including a plurality of recharge well group, trunk line 1 and a plurality of small transfer line 2, each small transfer line 2 is used for connecting trunk line 1 respectively and each recharge well group to introduce the recharge water in the trunk line 1 to recharge well group inside through each small transfer line 2, in order to realize the recharge function.

Each recharging well group comprises a recharging well 3 and a spare well 4, it should be noted that the recharging well 3 and the spare well 4 can be the recharging well 3 or the spare well 4, when one of the wells is recharged, the well is the recharging well 3, and the other well is the spare well 4, and the specific installation positions of the recharging well 3 and the spare well 4 are not limited herein.

This application is still including installing the flow measurement and control ware on the small transfer line 2, and the flow measurement and control ware is located the upper portion of small transfer line 2 and is close to trunk line 1 department, realizes the control to the detection of small transfer line 2 flow and flow size through setting up the flow measurement and control ware. In addition, water level meters 5 are also arranged inside the recharging wells 3 and the standby wells 4 and used for measuring the water level heights inside the recharging wells 3 and the standby wells 4; a communication pipeline 6 is arranged between the recharge well 3 and the standby well 4, an automatic control water pump 7 is arranged on the communication pipeline 6, and the automatic control water pump 7 can realize bidirectional pumping and drainage of liquid so as to wash the recharge well 3.

In addition, the automatic control device that recharges that this application provided still includes watch-dog 8, and watch-dog 8 and fluviograph 5, flow measurement and control ware and automatic control water pump 7 wireless connection realize the data intercommunication between watch-dog 8 and fluviograph 5, flow measurement and control ware and automatic control water pump 7 through wireless network.

When the monitor 8 receives that the water level value measured by the water level meter 5 exceeds the water level preset range inside the monitor 8, the monitor 8 adjusts the flow rate and the flow in the recharge well 3 to the water level preset range by adjusting the flow measuring and controlling device.

When the measured water level of the recharge well 3 meets the water level requirement but the flow is smaller than the preset flow value, the monitor 8 can automatically close the flow measuring and controlling device on the branch pipeline 2 of the recharge well 3, then sequentially open the flow measuring and controlling device on the branch pipeline 2 of the standby well 4 and the flow measuring and controlling device on the branch pipeline 2 of the standby well 4, and then open the automatic control water pump 7 to start the standby well 4 to perform the well washing operation of the recharge well 3.

The application provides a recharge automated control device realizes the automatic real-time supervision and the working parameter's of recharging water level and recharge water volume in the recharging well 3 through watch-dog 8 and sets for, according to monitoring result automatic analysis adjustment recharge water volume to adjust the well-flushing work of recharging well 3 according to the working parameter who sets for, guarantee recharging efficiency and well-flushing efficiency with this.

The application has the following technical advantages:

(1) the utility model realizes the optimized allocation of the water recharging amount of each recharging well 3, and improves the overall recharging efficiency;

(2) monitoring the water quantity and the recharging efficiency in the recharging well 3 in real time, and automatically controlling a well washing device of the recharging well 3 according to the monitoring result to protect the recharging capacity of the recharging well 3;

(3) the field monitoring terminal has a data storage function, can remotely set terminal working parameters, is remotely and automatically controlled, and improves the overall working efficiency;

(4) the monitor 8 can check, download and analyze data on line at any time, and generate a trend graph and a change curve, so as to provide a basis for the study of the recharge rule.

The communication pipeline 6 is preferably an arch-shaped overhead pipeline with certain flexibility and bending, so that the communication requirement between the large-span recharge well 3 and the standby well 4 is met, the installation space is saved, the pipeline material is saved, the connection strength and the firmness are improved, and the communication pipeline is safer and more economic.

Further, in order to improve the filtering effect of the impurities in the recharge well 3, the filter 11 can be arranged on the communicating pipeline 6, and the self-control water pump 7 is bidirectionally pumped and discharged, so that the communicating pipeline 6 can realize bidirectional circulation of a water channel, preferably, the number of the filters 11 is at least two, the filters are respectively arranged on the left side and the right side of the self-control water pump 7, as shown in fig. 1, in this way, when the well washing operation is carried out, the filters 11 can filter the impurities such as silt and sandy soil of the recharge water body, the self-control water pump 7 is prevented from being damaged, and the water body is prevented from being damaged and the cleanliness of the water body is improved. Of course, the specific number and installation position of the filters 11 are not limited herein.

Specifically, the monitor 8 includes a receiver, a memory, a processor and a controller, wherein the receiver is configured to receive water level data and flow data, the memory is connected to the receiver through a wire and is configured to store the water level data and the flow data sent by the receiver, the processor is connected to the memory and is configured to compare and analyze the water level data and a preset range of the water level and the flow data and a preset flow value and calculate an opening degree of the flow measuring and controlling device and the automatic control water pump 7, and the controller is wirelessly or electrically connected to the flow measuring and controlling device and the automatic control water pump 7 and is configured to adjust the opening degree of the flow measuring and controlling device and the automatic control water pump 7 according to the calculated opening degree value.

Specifically, flow measurement and control ware includes flowmeter 9 and flow controller 10, and flowmeter 9 is used for measuring the velocity of flow in the branch pipeline 2, and flow controller 10 and flowmeter 9 branch are located the upper end and the lower extreme of communicating pipe 6 to flowmeter 9 and flow controller 10 all with watch-dog 8 wireless connection, like this, flowmeter 9 can be with the flow data transmission who records to watch-dog 8, and watch-dog 8 passes through flow controller 10 and realizes the control of branch pipeline 2 velocity of flow.

The water level meter 5, the flow meter 9, the flow controller 10 and the self-control water pump 7 are all internally provided with GPRS wireless communication units, and data intercommunication and remote automatic control over the self-control water pump 7 and the flow controller 10 are achieved through a wireless network and a monitor 8.

It should be noted that, in the present application, reference is made to the prior art for specific structures and operation principles of the receiver, the memory, the processor and the controller, and the wireless transmission control technology, and the disclosure is not expanded herein.

Further, the monitor 8 is provided with a display, the display is electrically connected with the memory and the processor through leads and used for displaying water level and flow data in each recharging well 3 and information such as valve opening degree of the automatic control water pump 7 and the flow controller 10, and the like, so that the workers can obtain recharging and well washing conditions through the display, and the visualization degree is high.

In addition, the monitor 8 also has an automatic alarm function, specifically, the monitor 8 is internally provided with an alarm which is connected with the processor through a lead, when the flow data is lower than the flow safety value, the processor sends a sound alarm to the alarm, and the alarm immediately rings to give an alarm to prompt a worker to investigate the abnormal condition.

As shown in fig. 2, in order to provide a flow chart of the automatic recharge control device of the present invention, the following work flow is executed in the present application:

firstly, the recharge water is discharged into each group of recharge wells 3 through a main pipeline 1 and branch pipelines 2, the water level and the recharge flow in the recharge wells 3 are monitored through a water level meter 5 and a flow meter 9, and data are transmitted to a monitor 8 in real time;

secondly, the monitor 8 analyzes water level data in the well, when the water level in the well is too low or too high, the monitor 8 controls the flow rate of the branch pipeline 2 through the flow controller 10, and the water level of the recharge well 3 is ensured to be maintained at a reasonable height through continuous feedback;

thirdly, when the water level height in the recharge well 3 meets the requirement, further analyzing flow data: when the flow rate is normal, the continuous monitoring is kept; when the flow rate is too low, the recharging efficiency of the recharging well 3 is reduced, and a well washing process needs to be started;

fourthly, starting a well washing process: controlling a flow controller 10 of a recharging well 3 to stop recharging of the recharging well 3, opening the flow controller 10 of a standby well 4 matched with the recharging well 3 to start the standby well 4, starting an automatic control water pump 7 at the same time, pumping water in the original recharging well 3 out to be discharged into the standby well 4, and filtering out impurities such as sand and soil in underground water from the recharging well 3 through a filter 11;

fifthly, monitoring the water levels and the flow rates in the recharge well 3 and the standby well 4, and repeating the process for control;

and sixthly, groundwater is recharged into a plurality of groups of recharging wells 3 through the main pipeline 1, and each group of recharging wells 3 can be automatically controlled through the monitor 8 according to the recharging flow.

The above is to the present invention provides a recharge automation control device which is introduced in detail. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (8)

1. A recharge automatic control device comprises a main pipeline (1), a plurality of recharge well groups and branch pipelines (2) used for respectively communicating the main pipeline (1) with each recharge well group, wherein each recharge well group comprises a recharge well (3) and a standby well (4), and the recharge automatic control device is characterized in that each branch pipeline (2) is provided with a flow measurement and control device used for monitoring and controlling the flow of the branch pipeline (2), each recharge well (3) and each standby well (4) are internally provided with a water level gauge (5) used for measuring the water level, a communication pipeline (6) is communicated between the recharge well (3) and the standby well (4) in the same group, and the communication pipeline (6) is provided with an automatic control water pump (7);

the water level gauge is wirelessly connected with the water level gauge (5) and the flow measuring and controlling device to receive a water level signal and a flow signal, and when the water level in the recharge well (3) exceeds a preset water level range, the flow measuring and controlling device can be adjusted by the monitor (8) to enable the flow measuring and controlling device to adjust the water level to the preset water level range; when the measured water level of the recharging well (3) meets the water level requirement but the flow is smaller than a preset flow value, the monitor (8) can start the standby well (4) to continue recharging and wash the recharging well (3).

2. The automated control device of recharging as defined in claim 1, characterized in that said monitor (8) comprises:

the receiver is used for receiving water level data and flow data;

a memory for storing the water level data and the flow data;

the processor is used for comparing the water level data with a water level preset range and the flow data with a preset flow value and calculating the valve opening of the flow measuring and controlling device or the opening of the automatic control water pump (7) according to a comparison result;

and the controller is used for respectively adjusting the opening degrees of the flow measuring and controlling device and the automatic control water pump (7).

3. The automatic recirculation control device according to claim 2, wherein the flow measuring and controlling device comprises a flow meter (9) and a flow controller (10), the flow controller (10) and the flow meter (9) are respectively arranged at the upper end and the lower end of the communicating pipe (6), and the flow meter (9) and the flow controller (10) are both wirelessly connected with the monitor (8).

4. The automated recirculation control device according to claim 3, characterized in that the water level meter (5), the flow meter (9), the flow controller (10) and the self-controlled water pump (7) are all built-in with GPRS wireless communication unit for communicating data with the monitor (8) through network.

5. The automated control device of recharging as defined in claim 2, wherein the communication duct (6) is embodied as an arch-shaped overhead duct.

6. The automatic recirculation control device according to any one of claims 2 to 5, further comprising two filters (11) installed in the communication pipeline (6) for filtering impurities, wherein the two filters (11) are respectively disposed on two sides of the automatic control water pump (7).

7. The automated recirculation control device according to claim 6, characterized in that said monitor (8) further comprises a display to display said flow data and said water level data.

8. The automated recirculation control device according to claim 7, characterized in that said monitor (8) further comprises an alarm to sound an alarm when said flow data is lower than a flow safety value.

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