CN219831039U - Heavy metal detection device for water quality monitoring - Google Patents

Abstract

The utility model provides a heavy metal detection device for water quality monitoring, which comprises a detector, wherein a slot opening is arranged at the bottom position of the back of the detector, an inner nested frame is arranged in the slot opening, vertical rods are connected to the left side and the right side of the inner wall of the inner nested frame, a corresponding round opening sleeve block is slidably arranged on the outer surface of the vertical rods, an overhanging bracket is connected to the outer side surface of the round opening sleeve block, and a shaft rod sleeve is movably arranged on the front side of the inner wall of the overhanging bracket. According to the heavy metal detection device for water quality monitoring, the inner nested frame is arranged in the slot opening at the bottom of the detector, the outer support is movably arranged in the inner nested frame, the outer support can be pulled out in the outdoor working process, the support legs are utilized to extend the everting solar power supply module to supply power, the problem that the heavy metal detection is not provided with a power supply outdoors is effectively solved, the adaptability between the everting solar power supply module and the detector is improved, the folding storage is convenient, and the carrying is convenient.

Description

Heavy metal detection device for water quality monitoring

Technical Field

The utility model relates to the technical field of water quality monitoring, in particular to a heavy metal detection device for water quality monitoring.

Background

The water environment refers to the environment of a space where water is formed, distributed and converted in the natural world, the detection of water quality is a basic basis for researching the existence, migration and conversion of elements in the water environment, the environmental quality or pollution degree and water quality evaluation, and is one of basic elements forming the environment, and is an important place for survival and development of human society, wherein the detection of water quality heavy metal is one of effective means for detecting the water quality environment.

In the current heavy metal detection work, in order to improve the efficiency of heavy metal content in the field detection quality of water, generally through portable swift heavy metal detection instrument, a heavy metal detection device for water quality monitoring as disclosed in CN217359860U for the application, it includes the water quality detector, four supporting legs are installed in the rotation of water quality detector bottom, install high adjusting device on the supporting leg, effectually solved when detecting the heavy metal content in the quality of water in the field, because the field topography environmental difference is difficult to place and levels, slope easily rocks, inconvenient problem when causing water quality detection to use.

However, in the field detection process, many detection devices need power, but the outdoor working environment is difficult to provide power, most of the existing outdoor power is a solar power supply module, and the existing structure of the existing outdoor power is difficult to adapt to the solar power supply module, so that it is necessary to provide a heavy metal detection device for water quality monitoring to solve the technical problems.

Disclosure of Invention

The utility model provides a heavy metal detection device for water quality monitoring, which solves the problem that the structure of the existing heavy metal detection device for water quality monitoring is difficult to adapt to a solar power supply module.

In order to solve the technical problems, the utility model provides a heavy metal detection device for water quality monitoring, comprising: a detector;

the device comprises a slot, wherein the slot is arranged at the bottom of the back of the detector, an inner nested frame is arranged in the slot, vertical rods are connected to the left side and the right side of the inner wall of the inner nested frame, corresponding round opening sleeve blocks are slidably arranged on the outer surfaces of the vertical rods, an overhanging bracket is connected to the outer side surface of each round opening sleeve block, a shaft rod sleeve is movably arranged on the front side of the inner wall of each overhanging bracket, and an outwards-turned solar power supply module is connected to the outer surface of each shaft rod sleeve;

the support legs are movably mounted on two sides of the bottom of the everting solar power supply module and used for changing the inclination angle of the everting solar power supply module.

The valgus solar power supply module is an existing solar power supply device and is used for supplying solar power to the device, a corresponding storage battery is installed, the valgus solar power supply module is used for being folded through the supporting legs in the prior art, the valgus solar power supply module is convenient to store with the inside of the slot opening, and the detector is an existing heavy metal detection device for water quality monitoring.

Preferably, the upper surface fixed mounting of interior nested frame is in a plurality of air cushion blocks, the whole oval cover structure that is of air cushion block, the outside of pole setting is the helicitic texture and all installs corresponding screw thread lasso, the screw thread lasso is for being used for preventing the outside detachable construction that slides and breaks away from of round mouth cover piece.

The air cushion block is used for extruding the everting solar power supply module, and improving the protective performance of the everting solar power supply module.

Preferably, guide rail grooves are formed in two sides of the inner wall of the outer support, and second tightening bolts corresponding to the guide rail grooves in a sliding mode are arranged at the bottoms of the supporting feet.

Preferably, the cover frame is all installed to the bottom left and right sides of detector, the inside of cover frame all overlaps and has the everting support foot, the inner wall of everting support foot with all be provided with the screw thread opening between the faying surface of cover frame and all install first tightening bolt.

Preferably, the bottoms of the everting support legs are connected with pointed tips.

Preferably, the upper surface movable mounting of detector has outer flip, the side of detector is connected with the portable pole.

Compared with the related art, the heavy metal detection device for water quality monitoring has the following beneficial effects:

the utility model provides a heavy metal detection device for water quality monitoring, which is characterized in that an overhanging bracket is movably arranged in an inner nested frame in a slot opening at the bottom of a detector, the overhanging bracket can be pulled out in the outdoor working process, and the supporting legs are utilized to extend an everting solar power supply module to supply power, so that the problem that the heavy metal detection is not provided with a power supply outdoors is effectively solved, the suitability of the everting solar power supply module and the detector is improved, and the device is convenient to fold and store and carry.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of a heavy metal detection device for water quality monitoring according to the present utility model;

FIG. 2 is a schematic structural diagram of a detector of a heavy metal detection device for water quality monitoring according to the present utility model;

FIG. 3 is a schematic structural view of an inner nested frame of a heavy metal detection device for water quality monitoring;

fig. 4 is a schematic structural diagram of a second embodiment of a heavy metal detection device for water quality monitoring according to the present utility model.

Reference numerals in the drawings: 1. the detector comprises a detector, 2, a portable rod, 3, an outer flip cover, 4, a sleeve frame, 5, a first tightening bolt, 6, an outer flip support leg, 7, a tip, 8, a slot opening, 9, an inner nested frame, 10, a vertical rod, 11, a threaded ferrule, 12, a round mouth sleeve block, 13, an overhanging bracket, 14, a guide rail groove, 15, a shaft lever sleeve, 16, an outer flip solar power supply module, 17, a support leg, 18, a second tightening bolt, 19, an air cushion block, 20, an adhesive layer, 21 and a protective cotton plate.

Detailed Description

The utility model will be further described with reference to the drawings and embodiments.

First embodiment

Referring to fig. 1, fig. 2, and fig. 3 in combination, fig. 1 is a schematic structural diagram of a first embodiment of a heavy metal detection device for water quality monitoring according to the present utility model; FIG. 2 is a schematic structural diagram of a detector of a heavy metal detection device for water quality monitoring according to the present utility model; fig. 3 is a schematic structural diagram of an inner nested frame of the heavy metal detection device for water quality monitoring. A heavy metal detection device for water quality monitoring includes: a detector 1;

the device comprises a slot opening 8, wherein the slot opening 8 is arranged at the bottom position of the back of the detector 1, an inner nested frame 9 is arranged in the slot opening 8, vertical rods 10 are connected to the left side and the right side of the inner wall of the inner nested frame 9, corresponding round opening sleeve blocks 12 are slidably arranged on the outer surfaces of the vertical rods 10, an overhanging bracket 13 is connected to the outer side surfaces of the round opening sleeve blocks 12, a shaft rod sleeve 15 is movably arranged on the front side of the inner wall of the overhanging bracket 13, and an outwards-turned solar power supply module 16 for outwards rotating is connected to the outer surface of the shaft rod sleeve 15;

wherein, support legs 17 are movably arranged at two sides of the bottom of the everting solar power supply module 16, and the support legs 17 are used for changing the inclination angle of the everting solar power supply module 16.

The valgus solar power supply module 16 is an existing solar power supply device and is used for supplying solar power to the device, a corresponding storage battery is installed, the valgus solar power supply module can be folded through the supporting legs 17 in the prior art, the valgus solar power supply module is convenient to store and insert the inside of the slot port 8, and the detector 1 is an existing heavy metal detection device for water quality monitoring.

The upper surface of the inner nested frame 9 is fixedly arranged on a plurality of air cushion blocks 19, the whole air cushion blocks 19 are of elliptical sleeve structures, the outer sides of the vertical rods 10 are of thread structures and are provided with corresponding thread ferrules 11, and the thread ferrules 11 are detachable structures for preventing the circular opening sleeve blocks 12 from sliding outwards and separating.

The air cushion block 19 is used for extruding the everting solar power supply module 16, so as to improve the protection performance of the everting solar power supply module 16.

The guide rail grooves 14 are arranged on two sides of the inner wall of the overhanging bracket 13, and the second tightening bolts 18 which correspond to the guide rail grooves 14 in a sliding manner are arranged at the bottoms of the supporting legs 17.

The cover frame 4 is all installed to the bottom left and right sides of detector 1, and the inside of cover frame 4 all overlaps and has everting support foot 6, all is provided with screw thread opening and all installs first tightening bolt 5 between the faying surface of everting support foot 6 inner wall and cover frame 4.

The bottoms of the everting support legs 6 are connected with pointed tips 7.

The upper surface movable mounting of detector 1 has outer flip 3, and the side of detector 1 is connected with portable pole 2.

The working principle of the heavy metal detection device for water quality monitoring provided by the utility model is as follows: when the external turnover cover 3 of the detector 1 is opened in use, the detector 1 is utilized to detect water quality, in the outdoor working process, the external bracket 13 of the internal nested frame 9 of the slot opening 8 can be pulled, the external turnover solar power supply module 16 can be unfolded upwards around the shaft rod sleeve 15 by utilizing the supporting legs 17, the second tightening bolts 18 at the bottoms of the supporting legs 17 are turned, the external turnover support legs 6 which are fixed on the side surfaces of the guide rail grooves 14 and can be used for carrying out solar power supply on the external turnover solar power supply module 16 can be unfolded, the internal walls of the nested frames 4 at the two sides of the external turnover support legs 6 are unfolded, the detector 1 can be improved by turning the first tightening bolts 5, the detection is convenient, the external turnover solar power supply module 16 can be folded.

Compared with the related art, the heavy metal detection device for water quality monitoring has the following beneficial effects:

through the inside interior nested frame of detector bottom slot mouth, its inside movable mounting has the outrigger, can take out the outrigger in outdoor work process, utilizes the supporting leg to expand and turns out the solar power module and can supply power, effectually solved heavy metal detection and had not had the problem of power in the open air, improved the solar power module that turns out and detector suitability, conveniently fold and accomodate, conveniently carry.

Second embodiment

Referring to fig. 4, fig. 4 is a schematic structural diagram of a second embodiment of a heavy metal detection device for water quality monitoring according to the present utility model. Based on the heavy metal detection device for water quality monitoring provided in the first embodiment of the present utility model, another heavy metal detection device for water quality monitoring is provided in the second embodiment of the present utility model. The second embodiment is merely a preferred manner of the first embodiment, and implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the second embodiment of the present utility model provides a heavy metal detection device for water quality monitoring, which is different in that the four corners of the outer surface of the detector 1 are respectively provided with an adhesive layer 20.

The outer surfaces of the adhesive layers 20 are connected with protective cotton plates 21.

Working principle: in the use process, the protective performance of the device can be further improved through the protective cotton plate 21, and the anti-collision capability of the device in the outdoor working process is improved.

The beneficial effects are that: the protection performance of the device can be further improved through the protection cotton plate 21, and the anti-collision capability of the device in the outdoor working process is improved.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. A heavy metal detection device for water quality monitoring, characterized by comprising: a detector;

the device comprises a slot, wherein the slot is arranged at the bottom of the back of the detector, an inner nested frame is arranged in the slot, vertical rods are connected to the left side and the right side of the inner wall of the inner nested frame, corresponding round opening sleeve blocks are slidably arranged on the outer surfaces of the vertical rods, an overhanging bracket is connected to the outer side surface of each round opening sleeve block, a shaft rod sleeve is movably arranged on the front side of the inner wall of each overhanging bracket, and an outwards-turned solar power supply module is connected to the outer surface of each shaft rod sleeve;

the support legs are movably mounted on two sides of the bottom of the everting solar power supply module and used for changing the inclination angle of the everting solar power supply module.

2. The heavy metal detection device for water quality monitoring according to claim 1, wherein the upper surface of the inner nested frame is fixedly arranged on a plurality of air cushion blocks, the air cushion blocks are of an elliptical sleeve structure as a whole, the outer sides of the vertical rods are of thread structures and are provided with corresponding thread ferrules, and the thread ferrules are detachable structures for preventing the circular opening sleeve blocks from sliding outwards and separating.

3. The heavy metal detection device for water quality monitoring according to claim 1, wherein guide rail grooves are arranged on two sides of the inner wall of the outer support, and second tightening bolts corresponding to the guide rail grooves in a sliding mode are arranged at the bottoms of the supporting feet.

4. The heavy metal detection device for water quality monitoring according to claim 1, wherein the left side and the right side of the bottom of the detector are provided with sleeve frames, the inside of each sleeve frame is sleeved with an everting support leg, and threaded openings are formed between the inner walls of the everting support legs and the joint surfaces of the sleeve frames, and first tightening bolts are arranged on the inner walls of the everting support legs.

5. The heavy metal detection device for water quality monitoring according to claim 4, wherein the bottoms of the everting feet are respectively connected with a tip.

6. The heavy metal detection device for water quality monitoring according to claim 1, wherein an outer flip cover is movably arranged on the upper surface of the detector, and a hand lever is connected to the side surface of the detector.