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CN-224216111-U - Multi-parameter sensing simple device for monitoring underground water in karst area

CN224216111UCN 224216111 UCN224216111 UCN 224216111UCN-224216111-U

Abstract

The utility model discloses a multi-parameter sensing simple device for monitoring underground water in a karst area, which comprises a sensing box, wherein the upper ends of bottom plates at the left side and the right side of the sensing box are respectively provided with a water outlet and a water inlet, a water level sensing line, a water temperature sensing line, a Ph sensing line, a TDS sensing line and a Do sensing line are sequentially arranged in the sensing box, the water level sensing line, the water temperature sensing line, the Ph sensing line, the TDS sensing line and the Do sensing line are connected with a circuit integration end on the sensing box, sensing probes are arranged at the bottoms of the water level sensing line, the water temperature sensing line, the Ph sensing line, the TDS sensing line and the Do sensing line, and the other end of the circuit integration end is connected with a display panel.

Inventors

  • LIU DIAN
  • BAI XIMIN
  • Yu Shengpin
  • Wan Pingqiang
  • LI TIAN
  • CHEN SHIFENG

Assignees

  • 江西省地质局水文地质大队
  • 江西省勘察设计研究院有限公司

Dates

Publication Date
20260508
Application Date
20250415

Claims (5)

  1. 1. A multi-parameter sensing simple device for monitoring underground water in a karst area comprises a sensing box (100) and is characterized in that a water outlet (130) and a water inlet (120) are respectively formed in the upper ends of a left bottom plate and a right bottom plate of the sensing box (100), a water level sensing line (310), a water temperature sensing line (320), a Ph sensing line (330), a TDS sensing line (340) and a Do sensing line (350) are sequentially arranged in the sensing box (100), the water level sensing line (310), the water temperature sensing line (320), the Ph sensing line (330), the TDS sensing line (340) and the Do sensing line (350) are arranged at the bottoms of the water level sensing line (310), the water temperature sensing line (320), the Ph sensing line (330), the TDS sensing line (340) and the Do sensing line (350), and the other end of the line integrating end is connected with a display panel (400).
  2. 2. The multi-parameter sensing simple device for monitoring underground water in a karst area according to claim 1, wherein a movable plate (140) is arranged at the water outlet (130) and the water inlet (120), a water flow partition plate (200) is arranged at the upper end of the movable plate (140), sliding grooves (210) are formed in the lower portion of the water flow partition plate (200) and the upper portion of a bottom plate of the sensing box (100) and are matched with the movable plate (140), heat preservation materials (110) are arranged in the upper end of the water flow partition plate (200) on the left side plate and the right side plate of the sensing box (100), and heat preservation materials (110) are also arranged in the front side plate and the rear side plate of the sensing box (100).
  3. 3. The multi-parameter sensing simple device for monitoring underground water in a karst area according to claim 2, wherein a second connecting block (151) and a first connecting block (141) are respectively arranged at the joint of the left side plate and the right side plate of the sensing box (100) and the movable plate (140), the first connecting block (141) is matched with a clamping groove (150) arranged on the left side plate and the right side plate of the sensing box (100), and the second connecting block (151) and the first connecting block (141) are magnetically connected.
  4. 4. The multi-parameter sensing simple device for monitoring underground water in a karst region according to claim 1, wherein a corrosion-resistant material panel is arranged outside the sensing box (100).
  5. 5. The multi-parameter sensing device for monitoring groundwater in a karst region according to claim 2, wherein the thermal insulation material (110) is polystyrene foam and the water flow barrier (200) is a thermoplastic polyolefin material.

Description

Multi-parameter sensing simple device for monitoring underground water in karst area Technical Field The utility model belongs to the field of underground water monitoring, and particularly relates to a multi-parameter induction simple device for monitoring underground water in a karst region. Background Underground water systems in karst areas are complex and have high variability in distribution of groundwater due to erosion. The existing monitoring equipment can only monitor single parameters such as water level or water quality, and is difficult to meet the multi-dimensional and real-time monitoring requirements. Therefore, the development of a simple device capable of simultaneously monitoring multiple parameters (such as water level, water quality, water temperature, water flow speed and vector flow direction) has important significance. Disclosure of utility model The utility model aims to provide a multi-parameter induction simple device for monitoring underground water in a karst area, so as to solve the problems in the background technology. The multi-parameter sensing simple device for monitoring underground water in a karst area comprises a sensing box, wherein water outlets and water inlets are respectively formed in the upper ends of bottom plates on the left side and the right side of the sensing box, a water level sensing line, a water temperature sensing line, a Ph sensing line, a TDS sensing line and a Do sensing line are sequentially arranged in the sensing box, the water level sensing line, the water temperature sensing line, the Ph sensing line, the TDS sensing line and the Do sensing line are connected with a line integration end on the sensing box, sensing probes are arranged at the bottoms of the water level sensing line, the water temperature sensing line, the Ph sensing line, the TDS sensing line and the Do sensing line, and the other end of the line integration end is connected with a display panel. Preferably, the water outlet and the water inlet are provided with movable plates, the upper ends of the movable plates are provided with water flow partition plates, the lower parts of the water flow partition plates and the upper parts of the bottom plates of the sensing boxes are provided with sliding grooves matched with the movable plates, the left side plate and the right side plate of the sensing boxes are provided with heat preservation materials in the upper ends of the water flow partition plates, and the inside of the front side plate and the inside of the rear side plate of the sensing boxes are also provided with heat preservation materials. Preferably, the left side plate and the right side plate of the sensing box and the movable plate are respectively provided with a second connecting block and a first connecting block at the joint of the left side plate and the right side plate of the sensing box, the first connecting block is matched with a clamping groove arranged on the left side plate and the right side plate of the sensing box, and the second connecting block and the first connecting block are magnetically connected. Preferably, a corrosion-resistant material panel is arranged outside the sensing box. Preferably, the heat insulation material is polystyrene foam, and the water flow blocking plate is thermoplastic polyolefin material. Compared with the traditional sensor device, the sensor device designed by the utility model has the functions of the traditional device, is convenient to carry, is simple and synchronous in line acquisition of key parameters such as the water level, the water temperature, the pH value and the mineralization degree of underground water, provides the effect of multi-dimensional monitoring data support, and simultaneously avoids the trouble in the field test process caused by line redundancy. Drawings FIG. 1 is a schematic diagram of the present utility model; FIG. 2 is an enlarged schematic view of the utility model at A; FIG. 3 is an enlarged schematic view of the present utility model at B; FIG. 4 is a schematic view of a front and rear cross-section of a sensor housing of the present utility model; Fig. 5 is a schematic diagram of a first connection block and a second connection block according to the present utility model. In the figure, a sensing box 100, a heat insulation material 110, a water inlet switch 120, a water outlet switch 130, a movable plate 140, a first connecting block 141, a clamping groove 150, a second connecting block 151, a water flow separation plate 200, a sliding groove 210, a circuit integration end 300, a water level sensing line 310, a water temperature sensing line 320, a water temperature sensing line 330Ph, a TDS sensing line 340, a DO sensing line 350 and a display panel 400 are arranged. 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 embodime