CN220322818U - Water taking device for preventing and controlling groundwater pollution - Google Patents

Abstract

The utility model discloses a water taking device for preventing and controlling groundwater pollution, which relates to the technical field of groundwater pollution prevention and control, and comprises a supporting component, a drilling component, a lifting component, a water taking component and a PLC (programmable logic controller), and is characterized in that: the water intake assembly is characterized in that the lifting assembly and the water intake assembly are movably mounted on the supporting assembly respectively, the PLC controller is handheld, the drilling assembly is mounted on the lifting assembly, a plurality of chambers are partitioned inside the water intake assembly, water bags are placed in each chamber, and the drilling assembly, the lifting assembly and the water intake assembly are electrically connected with the PLC controller. The utility model has high safety, the spliced arrangement of the base and the upright post, good portability, and the underground water samples with different depths are stored in different water bags, so that the influence of residues which are not thoroughly cleaned in the storage box on the detection precision is avoided, more accurate data are conveniently brought to operators, and the pollution control of the underground water is facilitated.

Description

Water taking device for preventing and controlling groundwater pollution

Technical Field

The utility model relates to the technical field of underground water pollution control, in particular to a water taking device for underground water pollution control.

Background

Groundwater pollution is a phenomenon of deterioration of groundwater quality due to human factors, and the reasons for groundwater pollution are mainly as follows: the industrial wastewater is directly discharged into the underground, the polluted surface water invades into an underground aquifer, the human and animal feces or the water polluted by excessive pesticide use infiltrates into the underground and the like, and as a result, the content of harmful components such as phenol, chromium, mercury, arsenic, radioactive substances, bacteria, organic matters and the like in the underground water is increased, and the polluted underground water is harmful to human health and industrial and agricultural production, so that the underground water needs to be periodically sampled and detected.

At present, most structures of the existing underground water pollution prevention and control water intaking devices are complex, portability is poor, the whole preparation process time is long before underground water is sampled, working efficiency is low, underground water with different depths cannot be stored separately, the water tank is repeatedly used for storing the underground water, whether residual pollutants in the water tank are thoroughly cleaned cannot be judged, secondary pollution is easily caused to the underground water, and accuracy of underground water sampling detection is seriously affected.

How to develop a water taking device for preventing and controlling groundwater pollution, the structure is simple, the operation is convenient, the time and the labor are saved, the groundwater sampling accuracy is ensured, and the technical problem to be solved by the technicians in the field is urgent.

Disclosure of Invention

The utility model aims to provide a water taking device for preventing and treating groundwater pollution, which solves the problems listed in the background art.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model relates to a water taking device for preventing and controlling groundwater pollution, which comprises a supporting component, a drilling component, a lifting component, a water taking component and a PLC (programmable logic controller), and is characterized in that: the water intake assembly is characterized in that the lifting assembly and the water intake assembly are movably mounted on the supporting assembly respectively, the PLC controller is handheld, the drilling assembly is mounted on the lifting assembly, a plurality of chambers are partitioned inside the water intake assembly, water bags are placed in each chamber, and the drilling assembly, the lifting assembly and the water intake assembly are electrically connected with the PLC controller.

Preferably, the support assembly comprises a base, a stand column, racks, connecting rings and guide rails, wherein the bottoms of the stand columns are connected to the upper surface of the base through bolts, a plurality of connecting rings are installed on the outer side surface of the top of the stand column in a circumferential direction, the racks and the guide rails are installed on the outer side surface of the middle of the stand column, and the racks and the guide rails are matched with the lifting assembly.

Preferably, the base is provided with a drill hole and a plurality of square through holes.

Preferably, the lifting assembly comprises a first mounting plate, a second motor, a gear box and a longitudinal sliding block, wherein a gear is arranged in the longitudinal sliding block and meshed with the rack, the first mounting plate and the second mounting plate are arranged on the outer side face of the longitudinal sliding block, a circular through hole is formed in the first mounting plate, the second motor is arranged on the second mounting plate, the gear box is arranged on the side wall of the longitudinal sliding block, a driving shaft of the second motor is in transmission connection with the gear box and drives the gear to rotate, and the second motor is electrically connected with the PLC.

Preferably, the drilling assembly comprises a clamping slide block, a drill bit, a drill rod, a gearbox and a first motor, wherein the gearbox is mounted on the upper surface of the first mounting plate, the input end of the gearbox is meshed with the working end of the first motor, the output end of the gearbox penetrates through the circular through hole and is connected with the top of the drill rod, the drill bit is mounted at the bottom of the drill rod, the clamping slide block is mounted on the upper surface of the base, the central hole of the clamping slide block, the drill rod and the drill bit are coaxial with the drilling hole, and the first motor is electrically connected with the PLC.

Preferably, the drill rod adopts a splicing structure, and comprises a plurality of round pipes with equal length, and two adjacent round pipes are spliced together through threads.

Preferably, the water intake subassembly includes bin, water pump, inlet tube and outlet pipe, the bin is installed the upper surface of base just is located one side of stand, the upper surface mounting of bin has the water pump, the both ends of water pump are connected respectively inlet tube and outlet pipe, the outlet pipe intercommunication the bin, inlet tube and groundwater system intercommunication, the water pump with the PLC controller electricity is connected.

Preferably, the storage box is internally divided into a plurality of chambers, and the water inlet of the water bag is communicated with the water outlet pipe.

Compared with the prior art, the utility model has the beneficial technical effects that:

the water taking device for preventing and controlling the groundwater pollution has the advantages of high safety, good portability due to the spliced arrangement of the base and the upright posts, and capability of preventing the detection precision from being influenced by residues which are not thoroughly cleaned in the storage box because the groundwater samples with different depths are stored in different water bags, thereby being convenient for bringing more accurate data to operators and being more beneficial to preventing and controlling the groundwater pollution.

Drawings

The utility model is further described with reference to the following description of the drawings.

FIG. 1 is a left side schematic view of the overall structure of the present utility model;

fig. 2 is a right-side view schematically showing the overall structure of the present utility model.

Reference numerals illustrate: 1. a base; 2. a column; 3. a rack; 4. clamping a sliding block; 5. a drill bit; 6. a drill rod; 7. a gearbox; 8. a first motor; 9. a connecting ring; 10. a storage tank; 11. a water pump; 12. a first mounting plate; 13. a second mounting plate; 14. a second motor; 15. a gear box; 16. a longitudinal slide block; 17. and a guide rail.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 1-2, a water intake device for preventing and treating groundwater pollution, comprising a supporting component, a drilling component, a lifting component, a water intake component and a PLC controller, and is characterized in that: the utility model discloses a water pump, including support component, PLC, drilling subassembly, lifting subassembly, water intake subassembly, PLC, drilling subassembly, lifting subassembly, PLC, lifting subassembly is movable mounting respectively on the support component lifting subassembly with the water intake subassembly, install on the lifting subassembly drilling subassembly, water intake subassembly internal separation has a plurality of cavities, installs the water bag in every cavity, drilling subassembly, lifting subassembly, water intake subassembly all with PLC controller electricity is connected, simple structure, assembled water intake ware portable more, very big shortened the preparation time before the water intake, only need reach the place of awaiting measuring, assembled water intake ware, alright accomplish groundwater water intake sampling operation, further, the setting of different water bags is packed into to groundwater of different degree of depth is convenient for bring more accurate data for operating personnel, more does benefit to the pollution prevention and cure of groundwater.

Specifically, the supporting component comprises a base 1, an upright post 2, racks 3, connecting rings 9 and guide rails 17, the bottoms of the upright posts 2 are connected to the upper surface of the base 1 through bolts, a plurality of connecting rings 9 are installed on the outer side surface of the tops of the upright posts 2 in a circumferential direction, the racks 3 and the guide rails 17 are installed on the outer side surface of the middle of the upright post 2, and the racks 3 and the guide rails 17 are matched with the lifting component.

Specifically, be provided with four go-between in the top lateral surface circumference of stand, the go-between is connected to one end of steel wire or rope, and the drill rod of inserting ground is connected to the other end of steel wire or rope, realizes the fixed to the stand, has guaranteed the security when getting water sampling operation.

Specifically, a drilling and a plurality of square through holes have been seted up on the base 1, and the holistic lightweight design of water intaking ware has been realized to square through hole that sets up on the base, and is more portable, and the drilling is convenient for the drill bit passes the base.

Specifically, the lifting assembly comprises a first mounting plate 12, a second mounting plate 13, a second motor 14, a gear box 15 and a longitudinal sliding block 16, wherein a gear is mounted in the longitudinal sliding block 16 and meshed with the rack 3, a circular through hole is formed in the first mounting plate 12 and the second mounting plate 13 on the outer side face of the longitudinal sliding block 16, a second motor 14 is mounted on the second mounting plate 13, the gear box 15 is mounted on the side wall of the longitudinal sliding block 16, a driving shaft of the second motor 14 is in transmission connection with the gear box 15 and drives the gear to rotate, and the second motor 14 is electrically connected with the PLC.

Specifically, drilling subassembly includes clamp slide 4, drill bit 5, drilling rod 6, gearbox 7, first motor 8, gearbox 7 is installed the upper surface of first mounting panel 12, gearbox 7 input with the work end meshing of first motor 8, the output of gearbox 7 runs through circular through-hole with the top of drilling rod 6 is connected, install the bottom of drilling rod 6 the drill bit 5, clamp slide 4 installs the upper surface of base 1, clamp slide 4's centre bore, drill bit 5 with the drilling is coaxial, first motor 8 with the PLC controller electricity is connected.

Specifically, the clamping slide block comprises a fixed slide block and a movable slide block, the fixed slide block is fixedly arranged on the base through a bolt, the movable slide block is movably arranged on a sliding rail positioned on the base and is fixed through a set screw, the clamping slide block is arranged, an operator is convenient to clamp a drill rod, and the operation of adding the drill rod or recovering the drill rod is performed.

Specifically, the diameter of the drill bit is larger than that of the drill rod, so that an operator can conveniently take water after the drill bit reaches the preset stratum depth.

Specifically, the drill rod 6 adopts a splicing structure, and comprises a plurality of round pipes with equal length, and two adjacent round pipes are spliced together through threads.

Specifically, the internal thread has been seted up on the internal surface of pipe one end, the external screw thread has been seted up on the surface of the pipe other end, only need splice the pipe one by one during drilling just can realize in the stratum of different degree of depth, realize drilling operation convenient and fast, and through the drilling rod number of connection, alright clear the degree of depth of knowing drilling, further, the operating personnel of being convenient for control water intaking degree of depth.

Specifically, the water intaking subassembly includes bin 10, water pump 11, inlet tube and outlet pipe, bin 10 installs the upper surface of base 1 just is located one side of stand 2, bin 10's upper surface mounting has water pump 11, water pump 11's both ends are connected respectively inlet tube and outlet pipe, the outlet pipe intercommunication bin 10, inlet tube and groundwater system intercommunication, water pump 11 with PLC controller electricity is connected, and the drill bit reaches behind the predetermined degree of depth, and sample operation is carried out in the groundwater system in the inlet tube one end put into, and the other end intercommunication water pump of inlet tube to through outlet pipe intercommunication bin on the water pump, after the groundwater sample of one detection degree of depth is accomplished, the drill bit continues to bore downwards, and when the drill bit reached next detection degree of depth, the inlet tube carries out sample operation, has realized carrying out sample operation to groundwater in the stratum of different detection degree of depth.

Specifically, the internal separation of bin 10 has a plurality of the cavity, every place the water bag in the cavity, the interface of water bag with the outlet pipe intercommunication, during the groundwater sampling operation is carried out to every stratum degree of depth, the water bag in the different cavities is connected respectively to the end of outlet pipe, and the operating personnel of being convenient for distinguish and discern the groundwater sample of different detection degree of depth, further, portable, only need make the sign with the water bag after the sampling is accomplished, just can carry out the inspection, need not wash the bin, more not the residue in the heart bin influences the detection precision, is convenient for bring more accurate data for the operating personnel, more does benefit to the pollution control of groundwater.

The working steps of the utility model are as follows:

step one, assembling, namely sleeving a longitudinal sliding block on a stand column, fixedly mounting the stand column on a base, further mounting a gearbox, a first motor, a second motor and a gear box at a designated position on the longitudinal sliding block, and simultaneously connecting one end of a drill rod with a drill bit and the other end of the drill rod with an output end of the gearbox;

step two, electrifying and checking, namely electrifying the first motor and the second motor, controlling the first motor and the second motor to operate through a handheld PLC, checking the connection condition of each component, and adjusting;

step three, drilling operation, wherein the first motor drives the drill bit and the drill rod to rotate through the gearbox, and the output shaft of the second motor moves downwards on the upright post through the gearbox, so that the drilling operation is realized;

step four, water taking operation, wherein one end of a water inlet pipe is connected with a water pump, the other end of the water inlet pipe is connected with a groundwater system, a water outlet pipe of the water pump is communicated with a water bag, and the water pump operation fills the extracted groundwater sample into the water bag to finish the water taking operation;

fourth, retrieve the operation, the second motor drives vertical slider upward displacement, further for the drilling rod upwards promotes, fixes the drilling rod through pressing from both sides tight slider, dismantles the drilling rod on top, and after the dismantlement is accomplished, the second motor drives vertical slider downward displacement and is connected with the drilling rod, and the second motor drives vertical slider upward displacement, makes the drilling rod upwards promote, fixes the drilling rod through pressing from both sides tight slider, dismantles the drilling rod on top, and the drill bit is retrieved from the drilling, accomplishes the recovery operation.

In addition, the system further comprises a cable and a plug, and the system combines the existing programming technology, wherein the programming technology is known and can be realized by a person skilled in the art, and the description is omitted herein.

It is noted that relational terms such as first and second, and the like are 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. Moreover, 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.

The above embodiments are only illustrative of the preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solutions of the present utility model should fall within the protection scope defined by the claims of the present utility model without departing from the design spirit of the present utility model.

Claims (8)

1. A water intaking ware for groundwater pollution prevention and cure, includes supporting component, drilling subassembly, lifting unit, water intaking subassembly and PLC controller, its characterized in that: the water intake assembly is characterized in that the lifting assembly and the water intake assembly are movably mounted on the supporting assembly respectively, the PLC controller is handheld, the drilling assembly is mounted on the lifting assembly, a plurality of chambers are partitioned inside the water intake assembly, water bags are placed in each chamber, and the drilling assembly, the lifting assembly and the water intake assembly are electrically connected with the PLC controller.

2. A water intake device for groundwater pollution control according to claim 1, wherein: the support assembly comprises a base (1), a stand column (2), racks (3), connecting rings (9) and guide rails (17), wherein the bottoms of the stand columns (2) are connected to the upper surface of the base (1) through bolts, a plurality of connecting rings (9) are installed on the outer side face of the top of each stand column (2) in a circumferential direction, the racks (3) and the guide rails (17) are installed on the outer side face of the middle of each stand column (2), and the racks (3) and the guide rails (17) are matched with the lifting assembly.

3. A water intake device for groundwater pollution control according to claim 2, wherein: a drilling hole and a plurality of square through holes are formed in the base (1).

4. A water intake device for groundwater pollution control according to claim 3, wherein: the lifting assembly comprises a first mounting plate (12), a second mounting plate (13), a second motor (14), a gear box (15) and a longitudinal sliding block (16), wherein a gear is arranged in the longitudinal sliding block (16), the gear is meshed with the rack (3), the outer side surface of the longitudinal sliding block (16) is provided with the first mounting plate (12) and the second mounting plate (13), the first mounting plate (12) is provided with a circular through hole, the second mounting plate (13) is provided with the second motor (14), the gear box (15) is arranged on the side wall of the longitudinal sliding block (16), a driving shaft of the second motor (14) is connected with the gear box (15) in a transmission mode and drives the gear to rotate, and the second motor (14) is electrically connected with the PLC.

5. A water intake device for groundwater pollution control according to claim 4, wherein: drilling subassembly is including pressing from both sides tight slider (4), drill bit (5), drilling rod (6), gearbox (7), first motor (8), gearbox (7) are installed the upper surface of first mounting panel (12), gearbox (7) input with the work end meshing of first motor (8), the output of gearbox (7) runs through circular through-hole with the top of drilling rod (6) is connected, install the bottom of drilling rod (6) drilling bit (5), it installs to press from both sides tight slider (4) the upper surface of base (1), the centre bore of tight slider (4), drilling rod (6), drilling bit (5) with the drilling is coaxial, first motor (8) with PLC controller electricity is connected.

6. A water intake device for groundwater pollution control according to claim 5, wherein: the drill rod (6) adopts a splicing structure, and comprises a plurality of round pipes with equal length, and two adjacent round pipes are spliced together through threads.

7. A water intake device for groundwater pollution control according to claim 6, wherein: the water intake subassembly includes bin (10), water pump (11), inlet tube and outlet pipe, bin (10) are installed the upper surface of base (1) just is located one side of stand (2), the upper surface mounting of bin (10) has water pump (11), connect respectively at the both ends of water pump (11) inlet tube and outlet pipe, the outlet pipe intercommunication bin (10), inlet tube and groundwater intercommunication, water pump (11) with the PLC controller electricity is connected.

8. A water intake device for groundwater pollution control according to claim 7, wherein: the inside of the storage box (10) is divided into a plurality of chambers, and the water inlet of the water bag is communicated with the water outlet pipe.