CN219936313U - Sedimentation well remote monitoring system - Google Patents

Abstract

The utility model discloses a remote monitoring system for a sedimentation well, which comprises a functional box, an Internet of things gateway, a monitoring terminal, a water suction pump arranged at the bottom of the sedimentation well and a water level sensor arranged in the sedimentation well, wherein a central processing unit, a touch display screen, a wireless data acquisition unit, a water pump power switch and a power module are arranged in the box body of the functional box, the central processing unit, the touch display screen and the wireless data acquisition unit are all connected with the power module, the water pump power switch is connected between the power module and a power supply end of the water suction pump, the water level sensor is in wireless communication connection with the wireless data acquisition unit through the wireless transmitting module, the touch display screen, the wireless data acquisition unit and the water pump power switch are all connected with the central processing unit, and the central processing unit is in communication connection with the monitoring terminal through the Internet of things gateway. The utility model can realize the automatic control of the suction pump in the sedimentation well and can realize the purpose of remote monitoring of the suction pump in the sedimentation well.

Description

Sedimentation well remote monitoring system

Technical Field

The utility model relates to the technical field of monitoring of sedimentation wells, in particular to a remote monitoring system of sedimentation wells.

Background

The sedimentation well is suitable for outdoor environments, and is a well tubular drainage facility which is used for cleaning a blocked place and plays a role in sedimentation at the junction of a drainage pipe and a drainage groove. A water suction pump is arranged in the sedimentation well, and when the water level reaches a set highest threshold value, the water suction pump needs to be started for drainage operation. In order to improve the automatic control purpose of the water pump, a water level sensor is generally arranged in the sedimentation well, and the water pump is automatically controlled to start and stop after the water level is collected through the water level sensor. The existing start-stop control of the sedimentation well is automatic control, operators cannot perform manual control on site, and real-time running states of the suction pump in the sedimentation well cannot be monitored remotely.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a remote monitoring system for a sedimentation well, which can realize automatic control of a suction pump in the sedimentation well and can realize the purpose of remote monitoring of the suction pump in the sedimentation well.

The technical scheme of the utility model is as follows:

the utility model provides a sedimentation shaft remote monitoring system, includes functional box, thing networking gateway, monitor terminal, and set up in the suction pump at sedimentation shaft bottom and set up in the interior water level sensor of sedimentation shaft, be provided with central processing unit, touch display screen, wireless data collection station, water pump switch and power module in the box of functional box, central processing unit, touch display screen, wireless data collection station all be connected with power module, water pump switch connects between the power module and the power supply end of suction pump, water level sensor carries out wireless communication connection with wireless data collection station through wireless transmitting module, touch display screen, wireless data collection station, water pump switch all are connected with central processing unit, central processing unit pass through thing networking gateway and monitor terminal communication connection.

The central processing unit is connected with a wireless transceiver, and a receiving and transmitting antenna connected with the wireless transceiver is arranged on the box body of the functional box and is in communication connection with the gateway of the Internet of things.

The multifunctional water pump is characterized in that a control panel connected with the power supply module is arranged in the functional box, and a mode switching knob, a water pump starting key and a water pump stopping key which are connected with the central controller are arranged on the control panel.

The monitoring terminal comprises an upper computer and a mobile monitoring terminal, and wireless transceiver modules of the upper computer and the mobile monitoring terminal are connected with the gateway of the Internet of things.

The mobile monitoring terminal comprises a mobile phone and a handheld inspection terminal.

The box body of the functional box is provided with an audible and visual alarm, a relay of the audible and visual alarm is connected with the central processing unit, and a power supply end of the audible and visual alarm is connected with the power supply module.

The utility model has the advantages that:

(1) The touch display screen in the functional box can set the water level parameters of the start and stop of the water pump, real-time data of the water level in the sedimentation well and the start and stop state of the water pump are displayed in real time, and fault alarm information in the operation of the water pump can be checked.

(2) The wireless data collector in the functional box can be in wireless communication connection with the water level sensor, and can be directly spliced with the central processing unit, so that the problems of complicated wiring and testing are solved.

(3) The central processing unit is in communication connection with the monitoring terminal through the gateway of the Internet of things, so that stable switching communication among various communication modes is facilitated.

(4) The central processing unit is connected with the wireless transceiver, and the wireless transceiver is connected with the transceiver antenna, so that the stability of the wireless communication state between the distribution box and the monitoring terminal is greatly improved.

(5) The control panel is arranged in the functional box, an operator can switch a control mode through the mode switching knob on the control panel, when the water pump is rotated to the manual mode, the water pump can be manually controlled by manually pressing the water pump starting key or the water pump stopping key, and when the water pump is rotated to the automatic mode, the central processing unit can automatically control the water pump according to the acquired data of the water level sensor.

(6) The monitoring terminal comprises the upper computer and the mobile monitoring terminal, and an operator can remotely monitor the water pumps in the sedimentation wells at different positions through the upper computer (computer) and the mobile monitoring terminal, so that the water level condition in the sedimentation wells and the real-time running state of the water pumps are checked, and the remote start and stop control of the water pumps is realized.

Drawings

Fig. 1 is a schematic block diagram of the present utility model, wherein "—" is a signal link and "-" is a power supply link.

Reference numerals: the intelligent water level monitoring system comprises a 1-functional box, a 2-Internet of things gateway, a 3-monitoring terminal, a 4-water pump, a 5-water level sensor, an 11-central processing unit, a 12-mode switching knob, a 13-water pump start button, a 14-water pump stop button, a 15-wireless transceiver, a 16-transceiver antenna, a 17-touch display screen, a 18-wireless data collector, a 19-water pump power switch, a 110-audible and visual alarm, a 111-power module, a 31-upper computer and a 32-mobile monitoring terminal.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, a remote monitoring system for a sedimentation well comprises a functional box 1, an internet of things gateway 2, a monitoring terminal 3, a water suction pump 4 arranged at the bottom of the sedimentation well and a water level sensor 5 arranged in the sedimentation well, wherein a central processing unit 11, a control panel, a wireless transceiver 15, a touch display screen 17, a wireless data collector 18, a water pump power switch 19 and a power module 111 are arranged in the box body of the functional box 1, a transceiving antenna 16 connected with the wireless transceiver 15 and an audible and visual alarm 110 are arranged on the box body of the functional box 1, and a mode switching knob 12, a water pump starting key 13 and a water pump stopping key 14 are arranged on the control panel;

the central processing unit 11, control panel, touch display 17, wireless data collector 18, audible and visual alarm 110 all are connected with power module 111, pump switch 19 is connected between power module 111 and the power supply end of suction pump 4, water level sensor 5 carries out wireless communication connection with wireless data collector 18 through wireless transmitting module, mode switch knob 12, water pump start button 13, water pump stop button 14, wireless transceiver 15, touch display 17, wireless data collector 18, pump switch 19, audible and visual alarm 110's relay all is connected with central processing unit 11, transceiver antenna 16 and thing networking gateway 2 communication connection, monitor terminal 3 is including host computer 31 and mobile monitor terminal 32 (cell-phone and handheld inspection terminal), host computer 31 and mobile monitor terminal 32's wireless transceiver module all are connected with thing networking gateway 2.

The working principle of the utility model is as follows:

firstly, setting a water pump starting liquid level, a water pump stopping liquid level, a water level sensor range and the like on a touch display screen 17; when the control personnel rotates the mode switching knob 12 on the control panel to a manual mode, the water pump starting key 13 or the water pump stopping key 14 is manually pressed to manually control the water pump 4, and when the mode switching knob 12 rotates to an automatic mode, the automatic starting and stopping control of the water pump 4 is performed;

when the automatic start-stop control is performed, the water level sensor 5 acquires real-time water level data in the sedimentation well in real time and then wirelessly transmits the real-time water level data to the wireless data acquisition unit 18, the wireless data acquisition unit 18 transmits the acquired real-time water level data to the central processing unit 11, when the real-time water level data is not lower than the water pump starting liquid level, the central processing unit 11 starts the water pump power switch 19 to control the water pump 4 to start the water drainage operation until the real-time water level data is not higher than the water pump stopping liquid level, and the central processing unit 11 closes the water pump power switch 19 to stop the water drainage operation;

the real-time water level data acquired by the water level sensor 5 and the running state of the water pump 4 are synchronously displayed on the touch display screen 17 and synchronously transmitted to the monitoring terminal 3; when the water suction pump 4 is started, and the real-time water level data acquired by the water level sensor 5 does not fall, the water suction pump 4 is indicated to be in fault, at the moment, the central processing unit 11 controls the audible and visual alarm 110 to give an alarm, and the water pump is displayed on the touch display screen 17 to be in a fault state, so that workers are reminded of carrying out on-site maintenance and check;

the monitoring terminal 3 can send a control instruction of the water pump to the central processing unit 11, and the central processing unit 11 controls the water pump power switch 19 to be turned on or turned off so as to realize the start and stop control of the water pump 4; the monitoring terminal 3 can remotely set the starting liquid level of the water pump, the stopping liquid level of the water pump, the measuring range of the water level sensor and the like, so as to realize the purpose of remote control.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A sedimentation well remote monitoring system, characterized in that: including functional box, thing networking gateway, monitor terminal to and set up in the suction pump at the bottom of the subsider and set up in the water level sensor in the subsider, be provided with central processing unit, touch display screen, wireless data collection station, water pump switch and power module in the box of functional box, central processing unit, touch display screen, wireless data collection station all be connected with power module, water pump switch connects between the power module and the power supply of suction pump, water level sensor carries out wireless communication connection with wireless data collection station through wireless emission module, touch display screen, wireless data collection station, water pump switch all are connected with central processing unit, central processing unit pass through thing networking gateway and monitor terminal communication connection.

2. The sedimentation well remote monitoring system of claim 1, wherein: the central processing unit is connected with a wireless transceiver, and a receiving and transmitting antenna connected with the wireless transceiver is arranged on the box body of the functional box and is in communication connection with the gateway of the Internet of things.

3. The sedimentation well remote monitoring system of claim 1, wherein: the multifunctional water pump is characterized in that a control panel connected with the power supply module is arranged in the functional box, and a mode switching knob, a water pump starting key and a water pump stopping key which are connected with the central controller are arranged on the control panel.

4. The sedimentation well remote monitoring system of claim 1, wherein: the monitoring terminal comprises an upper computer and a mobile monitoring terminal, and wireless transceiver modules of the upper computer and the mobile monitoring terminal are connected with the gateway of the Internet of things.

5. The sedimentation well remote monitoring system of claim 4, wherein: the mobile monitoring terminal comprises a mobile phone and a handheld inspection terminal.

6. The sedimentation well remote monitoring system of claim 1, wherein: the box body of the functional box is provided with an audible and visual alarm, a relay of the audible and visual alarm is connected with the central processing unit, and a power supply end of the audible and visual alarm is connected with the power supply module.