CN216974920U - Monitoring equipment of water sump device - Google Patents

Abstract

The monitoring equipment of the water sump device is used for monitoring the water sump device, and comprises a sensor, a serial server, a network cable and a background terminal; wherein, the sensor is arranged at the water sump device; the serial server is connected between the sensor and the network cable; the network cable is connected between the serial server and the background terminal, wherein the serial server and at least part of the network cable are arranged underground, and the background terminal is far away from the water sump device. In the utility model, the background terminal is arranged far away from the water sump device and receives data detected by the sensor of the serial server, so that the data detected by the sensor arranged at the water sump device can be acquired at a position far away from the underground, namely, the water sump device can be monitored on the well without depending on manual operation for detecting the water sump device.

Description

Monitoring equipment of water sump device

Technical Field

The utility model relates to the technical field of underground water supply work orders, in particular to monitoring equipment of a water sump device.

Background

A water sump is usually arranged under a coal mine, and a corresponding water sump device needs to be configured in order to smoothly discharge water gushing from the water sump to the ground through a drain pipe.

Generally, in order to detect whether the water sump device works normally and the drainage condition of the water sump, a worker needs to go down a well into the water sump to detect the relevant data of the water sump equipment. However, relying on manual work to go down the well to the sump to detect data is time consuming and labor intensive and increases safety concerns.

SUMMERY OF THE UTILITY MODEL

The utility model provides monitoring equipment of a water sump device, which aims to solve the problems that the time and the labor are wasted and the potential safety hazard is increased when the existing equipment needs to manually go down a well to detect related data in a water sump.

In order to solve the technical problem, the utility model is realized as follows:

the utility model provides monitoring equipment of a water sump device, which comprises a sensor, a serial server, a network cable and a background terminal, wherein the sensor is connected with the serial server through the network cable; wherein the sensor is arranged at the water sump device; the serial server is connected between the sensor and the network cable; the network cable is connected between the serial port server and the background terminal, wherein the serial port server and at least part of the network cable are arranged underground, and the background terminal is far away from the water sump device.

In the monitoring equipment of the water sump device, the monitoring equipment of the water sump device further comprises an alarm device.

In the monitoring equipment of the water sump device, the alarm device is connected with the background terminal and is far away from the water sump device; and/or the alarm device is connected with the serial server and arranged underground.

In the monitoring device of the water sump device, the network cable belongs to an underground industrial network; and/or the network cable is an optical fiber network cable.

The monitoring equipment of the water sump device comprises a drainage component, wherein the drainage component is used for discharging water gushing from the water sump to the outside of the water sump; the sensor comprises a drainage sensor, and the drainage sensor is arranged on the drainage assembly and used for detecting drainage data of the drainage assembly.

The monitoring equipment of the water sump device comprises a drainage pipe and a drainage pump; the drainage pipe comprises a drainage inlet and a drainage outlet which are communicated with each other, the drainage inlet is arranged at the bottom of the water sump, the drainage outlet is arranged outside the water sump, and the drainage pump is arranged at the drainage inlet and is used for pressing water gushing in the water sump into the drainage pipe; the drainage sensor comprises a flowmeter and a pressure gauge, wherein the flowmeter is arranged at a drainage inlet, and the pressure gauge is arranged between the drainage inlet and the drainage outlet.

The monitoring equipment of the water sump device further comprises a water pump assembly, wherein the water pump assembly is used for supplying power to the drainage pump; the sensor comprises an electrical performance sensor, and the electrical performance sensor is arranged on the water pump assembly and used for detecting the operation data of the water pump assembly.

The monitoring device of the water sump device comprises at least one of the following components: a transformer, a feed switch, a frequency converter or a switch-on/off switch; the electrical performance sensor includes: a voltmeter, an ammeter, a power meter or a switching-on/off sensor; the operating data of the water pump assembly includes: voltage, current, power, or on-off state;

the transformer is connected between an external power supply and the feed switch, and the frequency converter or the opening and closing switch is connected between the feed switch and the drainage pump.

In the monitoring device of the water sump device, the water sump device includes at least two drainage assemblies, and the drainage sensor is disposed on each drainage assembly; and/or

The water sump device comprises at least two frequency converters or opening and closing switches, and the electric performance sensor is arranged on each frequency converter or opening and closing switch.

In the monitoring device of the water sump device, the background terminal includes a display screen, and the display screen is used for displaying data corresponding to each sensor.

The monitoring equipment of the water sump device is used for monitoring the water sump device, and comprises a sensor, a serial server, a network cable and a background terminal; wherein the sensor is arranged at the water sump device; the serial server is connected between the sensor and the network cable; the network cable is connected between the serial server and the background terminal, wherein the serial server and at least part of the network cable are arranged underground, and the background terminal is far away from the water sump device. In the utility model, the background terminal is arranged far away from the water sump device and receives data detected by the sensor of the serial server, so that the data detected by the sensor arranged at the water sump device can be acquired at a position far away from the underground, namely, the water sump device can be monitored on the well without depending on manual operation for detecting the water sump device.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic structural diagram of a monitoring device of a water sump device provided by the utility model;

fig. 2 is a schematic view of a display screen of a monitoring device of the water sump apparatus according to the present invention.

Reference numerals:

100-monitoring equipment of the water sump device;

10-a sensor; 20-a serial server; 30-mesh wire; 40-background terminal; 50-an alarm device; 60-underground; 70-well;

200-water sump device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It should be apparent that the described embodiments are only one component embodiment of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

To solve the above technical problem, an embodiment of the present invention provides a monitoring apparatus 100 for a water sump device, which is used for monitoring a water sump device 200. The monitoring equipment 100 of the water sump device is used for monitoring the water sump device 200, and the monitoring equipment 100 comprises a sensor 10, a serial server 20, a network cable 30 and a background terminal 40; wherein, the sensor 10 is arranged at the water sump device 200 and is used for detecting the working data of the water sump device 200; the serial server 20 is connected between the sensor 10 and the network cable 30, and is configured to receive the working data detected by the sensor 10; the network cable 30 is connected between the serial server 20 and the background terminal 40, wherein the serial server 20 and at least part of the network cable 30 are arranged in the underground 60, and the background terminal 40 is far away from the water sump device 200 and receives data detected by the sensor 10. In the embodiment of the present invention, the background terminal 40 is disposed far from the sump device 200 and receives data detected by the sensor 10 of the serial server 20, so that the data detected by the sensor 10 disposed at the sump device 200 can be acquired at a position far from the downhole 60, that is, the sump device 200 can be monitored on the surface 70 without manually going down the well to detect the sump device 200.

In the embodiment of the present invention, the monitoring apparatus 100 of the water sump apparatus may further include an alarm device 50, and the alarm device 50 is configured to give an alarm when the operation data detected by the sensor 10 is abnormal. The warning device 50 may be a sounder that alerts the user of an abnormality in the sump assembly 200 via a voice pattern. Of course, the warning device 50 may further include an indicator light, and the user is prompted by the different colors of the indicator light that the water sump device 200 is abnormal.

The warning device 50 can be connected to the background terminal 40 and is far away from the water sump device 200, that is, the warning device 50 and the background terminal 40 are together disposed on the well 70, and when there is an abnormality in the working data of the water sump device 200, the background terminal 40 can control the warning device 50 to emit light for warning. As a variation, the warning device 50 may also be connected to the serial server 20 and disposed in the well 60, for example, a microcontroller is disposed between the serial server 20 and the warning device 50, and the warning device 50 is controlled by the microcontroller to issue a warning, so that the warning device 50 can prompt the abnormal condition of the sump device 200 in the well 60.

The network cable 30 can enable the background terminal 40 to be far away from the serial server 20, and long-distance connection between the background terminal 40 and the serial server 20 is achieved. The network cable 30 may belong to a preset underground 60 industrial network, and the position of the serial server 20 in the underground 60 can be flexibly selected by means of the preset underground 60 industrial network. To increase transmission speed, the network cable 30 may be an optical fiber network cable 30; of course, the mesh wire 30 may be other types of mesh wires 30.

In an embodiment of the present invention, the sump assembly 200 may include a drainage assembly for draining the water in the sump out of the sump, for example, to a location away from the sump and not re-flowing into the sump. In order to detect the drainage data of the drainage component of the sump device 200, the sensor 10 according to an embodiment of the present invention may include a drainage sensor disposed on the water patting component for detecting the drainage data of the drainage component.

Wherein the drain assembly may include a drain pipe and a drain pump. The drain pipe can include the drainage entry and the drainage export of intercommunication each other, and this drainage entry sets up in the bottom of sump, and of course, the bottom of sump should be gushed water, and the drainage export sets up in the outside of sump. The drainage pump is arranged at the drainage inlet and used for pressing water gushing in the water bin into the drainage pipe. The drain sensor may include a flow meter disposed at the drain inlet and a pressure gauge disposed between the drain inlet and the drain outlet. The drainage data of the drainage assembly is abnormal, namely the abnormal operation data of the water sump device 200 is represented.

Wherein, the number of the pressure gauges can be one, two or more, and can be uniformly arranged on the drain pipe.

For example, if the data of the flow meter provided at the drain inlet is large and the pressure value measured by the pressure gauge provided at the drain a point is small, it is considered that there is a leak point between the drain inlet of the drain and the drain a point.

Of course, the drainage sensor may be another sensor, and may be disposed at another position, as long as it can detect whether the drainage data of the drainage module is abnormal. For example, a pressure gauge or a flow meter is provided at the drain outlet, or a flow rate meter is provided between the drain inlet and the drain outlet, and the like, and the description thereof is omitted.

In an embodiment of the present invention, the sump assembly 200 may include a water pump assembly for supplying power to the drain pump, and correspondingly, the sensor 10 includes an electrical performance sensor disposed on the water pump assembly for detecting operation data of the water pump assembly.

The water pump assembly may include at least one of: a transformer, a feed switch, a frequency converter or a switch-on/off switch; correspondingly, the electrical performance sensor may include: a voltmeter, an ammeter, a power meter or a switching-on/off sensor; the operational data of the water pump assembly includes: voltage, current, power, or on-off state.

The transformer is connected between an external power supply and the feed switch, and the frequency converter or the opening and closing switch is connected between the feed switch and the drainage pump. The abnormal operation data of the water pump assembly means that the abnormal operation data of the water sump device 200 exists.

The transformer may be a mobile substation for external 10 kilovolts reduction to 660 volts. The feed switch is a main switch arranged behind the transformer, the frequency converter can be used for closing or starting the drainage pump with higher power through opening and closing, and the opening and closing switch is used for closing or starting the drainage pump with lower power through opening and closing. Data detected by the sensor 10 for the transformer may include, but is not limited to, voltage, current, power, load, and whether there is a fault or not.

Of course, the water sump device 200 may be provided with other components as required, in addition to the drainage component and the water pump component; correspondingly, the sensor 10 may have other sensors besides the drainage sensor and the electrical performance sensor, so as to detect all the components in the sump device 200.

Generally, the sump assembly 200 includes at least two drainage pumps and at least two drainage lines, so that when one of the drainage pumps fails, the other drainage pump or the other drainage line is used as a backup. For this purpose, at least two drainage sensors of the monitoring apparatus 100 are respectively provided on each drainage module.

The sump device 200 includes at least two draining pumps, and each draining pump corresponds to a frequency converter or a switch for controlling the starting or closing of the draining pump. All the frequency converters or the opening and closing switches can be connected with a feed switch together, namely the feed switch is a master switch of all the drainage pumps. The electric performance sensor is arranged on each frequency converter or each opening and closing switch.

In this embodiment of the present invention, the background terminal 40 may further include a display screen for displaying data corresponding to each sensor 10. Of course, the display screen may also be used to receive an instruction from a user, so that after receiving the instruction from the user, the background terminal 40 may control the sensor 10 in the monitoring device 100 or the drainage component and the water pump component in the water sump device 200, for example, switching on/off control.

It will be understood that in the present embodiment, the sump assembly 200 is located downhole 60, and thus, the location away from the sump assembly 200 may be considered uphole 70, and the location near the sump assembly 200 may be considered downhole 60.

In the embodiment of the utility model, the serial communication protocol can be converted into the network protocol through the serial server 20, and the data is transmitted to the underground 60 industrial network and then transmitted to the background terminal 40. Fig. 2 shows what can be displayed on a display screen of the backend terminal 40, and it can be seen that the display screen shows operation data of the motor # 1 in the unit 1 and the motor # 2 in the unit 2, also shows related information of the flow meter, and also shows controls including maintenance, emergency stop, and the like.

The monitoring equipment 100 of the water sump device can realize unattended operation of an underground 60-degree water pump room, achieves the purposes of reducing personnel and increasing efficiency, realizes online monitoring and remote control of water pump room equipment, replaces manual inspection, reduces the labor intensity of underground 60 personnel, realizes monitoring of abnormal conditions of a water supply system, ensures stable pressure of the water supply system, and ensures safe production of a mine.

The above description is only an example of the present invention and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (8)

1. The monitoring equipment of the water sump device is characterized by comprising a sensor, a serial server, a network cable and a background terminal; wherein the sensor is arranged at the water sump device; the serial server is connected between the sensor and the network cable; the network cable is connected between the serial server and the background terminal, wherein the serial server and at least part of the network cable are arranged underground, and the background terminal is far away from the water sump device;

the water sump device comprises a drainage assembly, wherein the drainage assembly is used for discharging water gushing from the water sump to the outside of the water sump; the sensor comprises a drainage sensor, and the drainage sensor is arranged on the drainage assembly and used for detecting drainage data of the drainage assembly;

the drainage assembly comprises a drainage pipe and a drainage pump; the drainage pipe comprises a drainage inlet and a drainage outlet which are mutually communicated, the drainage inlet is arranged at the bottom of the water sump, the drainage outlet is arranged outside the water sump, and the drainage pump is arranged at the drainage inlet and is used for pressing water gushing from the water sump into the drainage pipe; the drainage sensor comprises a flowmeter and a pressure gauge, the flowmeter is arranged at a drainage inlet, and the pressure gauge is arranged between the drainage inlet and the drainage outlet; the quantity of pressure gauge is a plurality of to set up on the drain pipe evenly.

2. The monitoring device of a water sump arrangement according to claim 1, wherein the monitoring device of a water sump arrangement further comprises an alarm device.

3. The monitoring equipment of the water sump device according to claim 2, wherein the alarm device is connected with the background terminal and is far away from the water sump device; and/or the alarm device is connected with the serial server and arranged underground.

4. The monitoring device of a water sump device according to claim 1, wherein the network cable belongs to a downhole industrial network; and/or the network cable is an optical fiber network cable.

5. The monitoring device of a water sump device according to claim 1, further comprising a water pump assembly for powering a drain pump; the sensor comprises an electrical performance sensor, and the electrical performance sensor is arranged on the water pump assembly and used for detecting the operation data of the water pump assembly.

6. The monitoring device of a water sump arrangement according to claim 5, wherein the water pump assembly comprises at least one of: a transformer, a feed switch, a frequency converter or a switch-on/off switch; the electrical performance sensor includes: a voltmeter, an ammeter, a power meter or a switching-on/off sensor; the operating data of the water pump assembly includes: voltage, current, power, or on-off state;

the transformer is connected between an external power supply and the feed switch, and the frequency converter or the opening and closing switch is connected between the feed switch and the drainage pump.

7. The monitoring device of a water sump device according to claim 5, wherein the water sump device comprises at least two drainage assemblies, the drainage sensor being disposed on each of the drainage assemblies; and/or

The water sump device comprises at least two frequency converters or opening and closing switches, and the electrical performance sensors are arranged on the frequency converters or the opening and closing switches.

8. The monitoring device of the water sump device according to claim 1, wherein the background terminal comprises a display screen for displaying data corresponding to each of the sensors.

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