CN114814141A - Water resource and water environment monitoring and early warning device - Google Patents

Abstract

The invention discloses a water resource and water environment monitoring and early warning device, which comprises: mounting a support; the floating pontoons are arranged in a plurality, and are symmetrically arranged on the lower end surface of the mounting support; the damping springs are arranged corresponding to the floating cylinders and connected between the mounting support and the floating cylinders; the insertion rods are arranged in a plurality and are vertically inserted into the riverbed, the insertion rods are connected with connecting rope sections, and one ends of the connecting rope sections are connected with the mounting support; the upper fixed body piece is fixed on the upper end surface of the mounting support; the multi-azimuth liquid taking assembly is vertically and relatively arranged on the upper fixed body in a deflecting manner, and can be used for sampling multi-point liquid taking in a specified water area; the water quality detection device is fixed on the upper fixed body; and the warning device is arranged on the upper fixed body piece.

Description

Water resource and water environment monitoring and early warning device

Technical Field

The invention belongs to the technical field of water quality monitoring equipment, and particularly relates to a water resource and water environment monitoring and early warning device.

Background

Water quality sampling is an important link of water quality monitoring, and accurate extraction of water body samples at specific time and spatial positions is required. In the monitoring of water resources and water environments in wide areas, the monitoring range is large, the reliability of single-point sampling detection is low, and representativeness is not achieved; particularly, most of the existing monitoring and early warning devices are difficult to monitor the water quality in each range of a water area, so that when the environmental pollution degree is high at one position, the water quality is difficult to identify in time;

therefore, the technical personnel in the field provide a water resource and water environment monitoring and early warning device to solve the problems in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a water resource and water environment monitoring and early warning device comprises:

mounting a support;

the floating pontoons are arranged in a plurality, and are symmetrically arranged on the lower end surface of the mounting support;

the damping springs are arranged corresponding to the floating cylinders and connected between the mounting support and the floating cylinders;

the insertion rods are arranged in a plurality and are vertically inserted into the riverbed, the insertion rods are connected with connecting rope sections, and one ends of the connecting rope sections are connected with the mounting support;

the upper fixed body piece is fixed on the upper end surface of the mounting support;

the multi-azimuth liquid taking assembly is vertically and relatively arranged on the upper fixed body in a deflecting manner, and can be used for sampling multi-point liquid taking in a specified water area;

the water quality detection device is fixed on the upper fixed body part and communicated with the multi-direction liquid taking assembly, and can detect the sampling water body conveyed in the multi-direction liquid taking assembly in time; and

and the warning device is arranged on the upper fixed body piece and used for indicating the water environment and the water quality of the region to the outside, and the warning device is electrically connected with the water quality detection device.

Further, preferably, the method further comprises:

the side guide frame is transversely fixed on one side of the mounting support, and the cross section of the side guide frame is constructed into an inverted L-shaped structure;

the rotating paddle can be arranged on the side guide frame in a relatively rotating mode;

the transmission connecting frame is transversely arranged on the lower end surface of the mounting support;

the winding shaft is arranged on the lower end face of the mounting support in a relatively rotating mode, one end of the transmission connecting frame is in transmission connection with the winding shaft through a gear meshing effect, and one end of the connecting rope section is connected with the winding shaft.

Further, as the preferred, the diversified liquid subassembly of getting includes:

the bearing piece is fixed in the middle of the upper fixed body piece, and the section of the upper end surface of the bearing piece is of an arc structure;

the inner rotating shaft is arranged on the bearing piece in a relatively rotating mode through a plurality of rotors, and a guide pipe vertically penetrates through and is fixed on the inner rotating shaft;

the transfer pipe is connected to the upper end of the conveying pipe, and the other end of the transfer pipe is communicated with an extraction pump;

the liquid storage tank is vertically fixed on one side of the upper end face of the mounting support through a fixing frame, the output end of the extraction pump is communicated with the liquid storage tank, and one end of the water quality detection device is vertically inserted into the liquid storage tank;

the drain pipe is vertically communicated below the liquid storage tank; and

the liquid taking devices are circumferentially and symmetrically arranged, each liquid taking device is fixed on the lower end face of the mounting support, and each liquid taking device is communicated with the guide pipe.

Further, preferably, the liquid extraction device includes:

an upper connecting frame;

the outer fixing bin is vertically fixed on the lower end face of the upper connecting frame, and an outer connecting frame is vertically fixed on one side of the outer fixing bin;

the multi-liquid-level collecting pipes are vertically arranged, each multi-liquid-level collecting pipe is fixed on the outer connecting frame, conveying inner pipes are communicated with the multi-liquid-level collecting pipes, and one ends of the conveying inner pipes are communicated with the outer fixing bin;

the inner flow pipe is coaxially fixed in the outer fixed bin, and one end of the inner flow pipe is communicated with the guide pipe;

the sealing plug piece is sleeved on the inner flow pipe in a sliding manner and is arranged in the outer fixed bin in a sliding manner;

the main pneumatic pressing piece is arranged in the outer fixing bin in a sliding mode and is positioned above the sealing plug piece, and the main pneumatic pressing piece is connected with the sealing plug piece through a support rod body; and

and the airflow pipes are arranged corresponding to the outer fixed bins, one ends of the airflow pipes are communicated with the inner flow pipe, and the other ends of the airflow pipes are communicated with an external air pump.

Further, preferably, the gas flow pipes are independently supplied with gas and discharged from each other.

Further, preferably, an inner conduit is arranged in the multi-liquid-level collecting pipe in a relatively sliding manner, a plurality of liquid discharge holes are formed in the circumference of the multi-liquid-level collecting pipe, a plurality of through holes are correspondingly formed in the inner conduit, and a compression spring is connected between the multi-liquid-level collecting pipe and the inner conduit;

and a telescopic guide rod is further arranged between the multi-liquid-level collecting pipe and the inner guide pipe, a fixed hose is connected below the inner guide pipe and is connected with the conveying inner pipe, and an inner plug is further arranged in the inner guide pipe in a sliding manner.

Further, preferably, the warning device includes:

a bearing seat;

the telescopic frame is vertically fixed on the lower end face of the bearing frame, and one end of the telescopic frame is fixed with the upper fixed body;

the external spring is symmetrically connected between the bearing seat and the upper fixed body part; and

the warning lamp body is three groups arranged and mutually presents different warning color numbers.

Further, preferably, a solar panel is further disposed on the mounting support.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the insertion rod is inserted into the riverbed, the mounting support can float on the river surface through the floating cylinder, and at the moment, the mounting support is connected with the insertion rod through the connecting rope section, so that the mounting support can float in the circular monitoring surface area, and thus, the water quality monitoring of each circular surface area can be carried out by the plurality of arranged mounting supports, so that the real-time monitoring work in large-area water accumulation areas is realized, and the monitoring precision is high;

2. according to the invention, a plurality of multi-azimuth liquid taking assemblies are vertically arranged below the mounting support, when the mounting support floats in the circular monitoring area, one multi-azimuth liquid taking assembly performs liquid taking operation preferentially, and when the mounting support floats to other positions, the other multi-azimuth liquid taking assembly performs liquid taking operation, so that the circular monitoring area is sampled one by one, and the sampling comprehensiveness and the monitoring data authority are ensured;

3. according to the invention, water bodies with different depths in the water area can be sampled, so that the real-time monitoring of deep water quality is facilitated.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a wind-up reel according to the present invention;

FIG. 3 is a schematic view of a multi-directional liquid-extracting assembly according to the present invention;

FIG. 4 is a schematic view of the liquid-extracting apparatus according to the present invention;

FIG. 5 is a schematic view of the multi-level collection tube of the present invention;

FIG. 6 is a schematic structural diagram of a warning device according to the present invention;

in the figure: the device comprises an installation support 1, a side guide frame 11, a rotating paddle 12, a transmission connecting frame 13, a winding shaft 14, a floating buoy 2, a damping spring 21, a 22 inserting rod, an upper fixed body 3, a warning device 4, a bearing seat 41, an external spring 42, a warning lamp body 43, a telescopic frame 44, a multi-directional liquid taking assembly 5, a bearing seat 51, an internal rotating shaft 52, a guide pipe 53, a switching pipe 54, a suction pump 55, a liquid storage tank 56, a drain pipe 57, a water quality detection device 6, a liquid taking device 7, an upper connecting frame 71, an external fixed bin 72, an internal conveying pipe 73, a sealing plug 74, a main pneumatic pressing part 75, an internal flow pipe 76, an airflow pipe 77, a multi-liquid level collecting pipe 8, an internal guide pipe 81, a compression spring 82, a telescopic guide rod 83 and a fixed hose 84.

Detailed Description

Referring to fig. 1, in an embodiment of the present invention, an early warning device for monitoring water resource and water environment includes:

installing a support 1;

the floating pontoons 2 are arranged in a plurality, and the floating pontoons 2 are symmetrically arranged on the lower end surface of the mounting support 1;

the damping springs 21 are arranged corresponding to the floating barrels 2, and the damping springs 21 are connected between the mounting support 1 and the floating barrels 2; the device is used for reducing the shaking amplitude of the mounting support main body;

the insertion rods 22 are arranged in a plurality, the insertion rods 22 are vertically inserted into a riverbed, the insertion rods 22 are connected with connecting rope sections, and one ends of the connecting rope sections are connected with the mounting support 1;

an upper fixed body 3 fixed to an upper end surface of the mounting support 1;

the multi-azimuth liquid taking assembly 5 is vertically and relatively arranged on the upper fixed body 3 in a deflection way, and the multi-azimuth liquid taking assembly 5 can carry out multi-point liquid taking sampling in a specified water area; that is to say, when the mounting support is limited by the floating of the connecting rope section, a circular monitoring surface area can be formed, and at the moment, the multi-azimuth liquid taking assembly can carry out liquid taking work one by one along with the floating of the mounting support, so that the multi-point liquid taking of the circular monitoring surface area is realized, and the monitoring effect is improved;

the water quality detection device 6 is fixed on the upper fixed body part 3 and communicated with the multi-direction liquid taking assembly 5, and the water quality detection device 6 can detect the sampling water body conveyed in the multi-direction liquid taking assembly 5 in time; the method comprises the steps of detecting items such as ammonia nitrogen, total phosphorus, total nitrogen, turbidity, PH, dissolved oxygen and the like in water; and

the warning device 4 is arranged on the upper fixed body part 3 and used for indicating the water environment and the water quality of the area to the outside, and the warning device 4 is electrically connected with the water quality detection device 6 so that external workers can collect the water area environmental pollution conditions in time and adopt corresponding regulation means; in particular, each water quality detection device can also transmit signals to peripheral computer equipment, so that the monitoring labor intensity is reduced.

In this embodiment, the method further includes:

a side guide 11 transversely fixed on one side of the mounting support 1, wherein the cross section of the side guide 11 is configured into an inverted L-shaped structure;

a rotary blade 12 relatively rotatably provided on the side guide 11;

the transmission connecting frame 13 is transversely arranged on the lower end surface of the mounting support 1;

the winding shaft 14 is arranged on the lower end face of the mounting support 1 in a relatively rotating mode, one end of the transmission connecting frame 13 is connected and transmitted with the winding shaft 14 through a gear meshing effect, one end of the connecting rope section is connected with the winding shaft 14, and the rotating blades can rotate forwards or backwards to drive the mounting support to each point of a circular monitoring water area; especially, the monitoring range can be adjusted through the winding effect of the winding shaft.

As a preferred embodiment, the multi-directional liquid taking assembly 5 comprises:

the bearing piece 51 is fixed in the middle of the upper fixed body 3, and the section of the upper end surface of the bearing piece 51 is of an arc structure;

an inner rotating shaft 52 which is arranged on the bearing part 51 through a plurality of rotors and can rotate relatively, and a guide pipe 53 vertically penetrates and is fixed on the inner rotating shaft 52;

the adapter tube 54 is connected to the upper end of the conveying tube 53, and the other end of the adapter tube 54 is communicated with an extraction pump 55;

a liquid storage tank 56 vertically fixed on one side of the upper end face of the mounting support 1 through a fixing frame, the output end of the extraction pump 55 is communicated with the liquid storage tank 56, and one end of the water quality detection device 6 is vertically inserted into the liquid storage tank 56;

a drain pipe 57 vertically communicated below the liquid storage tank 56; for discharging the sampled water body after detection, and

the liquid taking devices 7 are circumferentially and symmetrically arranged, each liquid taking device 7 is fixed to the lower end face of the mounting support 1, and each liquid taking device 7 is communicated with the guide pipe 53, wherein the liquid taking devices can convey a sampled water body into the guide pipes, and the extraction pump conveys the sampled water body into the liquid storage tank under the negative pressure work so that the water quality detection device can detect the sampled water body in time.

In this embodiment, the liquid extraction device 7 includes:

an upper connecting frame 71;

the outer fixing bin 72 is vertically fixed on the lower end face of the upper connecting frame 71, and an outer connecting frame is vertically fixed on one side of the outer fixing bin 72;

the multi-liquid-level collecting pipes 8 are vertically arranged, each multi-liquid-level collecting pipe 8 is fixed on the outer connecting frame, conveying inner pipes 73 are communicated with the multi-liquid-level collecting pipes 8, and one ends of the conveying inner pipes 73 are communicated with the outer fixing bin 72;

an inner flow pipe 76 coaxially fixed in the outer fixed bin 72, wherein one end of the inner flow pipe 76 is communicated with the guide pipe 53;

a sealing plug 74 slidably sleeved on the inner flow pipe 76, wherein the sealing plug 74 is slidably arranged in the outer fixed bin 72;

a main pneumatic pressing member 75 slidably disposed in the outer fixed bin 72 and located above the seal member 74, the main pneumatic pressing member 75 being connected to the seal member 74 through a fulcrum body; and

and an air flow pipe 77 is arranged corresponding to each of the external fixed bins 72, one end of the air flow pipe 77 is communicated with the internal flow pipe 76, and the other end of the air flow pipe 77 is communicated with an external air pump (not shown in the figure).

In this embodiment, each of the airflow pipes 77 can independently supply air and discharge air, that is, the sampling water in the guiding and conveying pipe is the sum of the sampling water stored in the plurality of external fixed bins, so as to realize water quality detection of the whole circular monitoring area.

In this embodiment, an inner conduit 81 is slidably disposed in the multi-liquid level collecting pipe 8, a plurality of liquid discharge holes are disposed on the circumference of the multi-liquid level collecting pipe 8, a plurality of through holes are correspondingly disposed on the inner conduit 81, and a compression spring 82 is connected between the multi-liquid level collecting pipe 8 and the inner conduit 81;

and a telescopic guide rod 83 is further arranged between the multi-liquid level collecting pipe 8 and the inner guide pipe 81, a fixed hose 84 is connected below the inner guide pipe 81, the fixed hose 84 is connected with the conveying inner pipe 73, an inner plug 85 is further arranged in the inner guide pipe 81 in a sliding manner, it needs to be noted that when a liquid discharge hole in the multi-liquid level collecting pipe is staggered with a through hole in the inner guide pipe, an external water source cannot enter the inner guide pipe, and when the liquid discharge hole is aligned with the through hole, the external water source can actively flow in from the liquid discharge hole, so that water quality sampling under different layers can be realized.

In a preferred embodiment, the warning device 4 includes:

a bearing seat 41;

an expansion bracket 44 vertically fixed on the lower end surface of the bearing frame 41, wherein one end of the expansion bracket 44 is fixed with the upper fixed body 3;

an external spring 42 symmetrically connected between the socket 41 and the upper fixed body 3; and

the warning lamp body 43 is three groups arranged in an array, and presents different warning color numbers, wherein, taking red, green and yellow as examples, the warning lamp body can even be serious, moderate and mild in sequence, and the indication is strong.

In this embodiment, a solar panel (not shown) is further disposed on the mounting support 1.

Specifically, in water environment monitoring, the inserted link can be vertically assigned in the riverbed, erection support floats on the surface of water through floating a section of thick bamboo, erection support is connected with the inserted link through connecting rope section this moment, make erection support float in circular monitoring area, and in floating carry out the multiple spot position through each diversified liquid subassembly of getting one by one and get liquid, and carry jointly to leading in the delivery pipe, carry it to the liquid storage pot through taking out the drainage pump, water quality testing device is timely detection to the sample water, under water quality is the pollution situation, the warning lamp body can carry out the light signal in proper order, monitoring effect is strong, data accuracy is higher.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent substitutions or changes according to the technical solution and the inventive concept of the present invention should be covered by the scope of the present invention.

Claims (8)

1. The utility model provides a water resource and water environment monitoring and early warning device which characterized in that: it includes:

a mounting support (1);

the floating buoys (2) are arranged in a plurality, and each floating buoy (2) is symmetrically arranged on the lower end face of the mounting support (1);

the damping springs (21) are arranged corresponding to the floating cylinders (2), and the damping springs (21) are connected between the mounting support (1) and the floating cylinders (2);

the device comprises a plurality of insertion rods (22) which are arranged in a row, wherein the insertion rods (22) are vertically inserted into a riverbed, the insertion rods (22) are connected with connecting rope sections, and one ends of the connecting rope sections are connected with the mounting support (1);

the upper fixed body piece (3) is fixed on the upper end face of the mounting support (1);

the multidirectional liquid taking assembly (5) is vertically and relatively arranged on the upper fixed body (3) in a deflecting manner, and the multidirectional liquid taking assembly (5) can be used for sampling multiple-point liquid taking in a specified water area;

the water quality detection device (6) is fixed on the upper fixed body part (3) and communicated with the multi-direction liquid taking assembly (5), and the water quality detection device (6) can detect the sampling water body conveyed in the multi-direction liquid taking assembly (5) in time; and

and the warning device (4) is arranged on the upper fixed body piece (3) and used for indicating the water environment and the water quality of the region to the outside, and the warning device (4) is electrically connected with the water quality detection device (6).

2. The water resource and water environment monitoring and early warning device according to claim 1, characterized in that: further comprising:

the side guide frame (11) is transversely fixed on one side of the mounting support (1), and the cross section of the side guide frame (11) is constructed into an inverted L-shaped structure;

the rotating paddle (12) is arranged on the side guide frame (11) in a relatively rotating mode;

the transmission connecting frame (13) is transversely arranged on the lower end surface of the mounting support (1);

the winding shaft (14) is arranged on the lower end face of the mounting support (1) in a relatively rotating mode, one end of the transmission connecting frame (13) is connected with the winding shaft (14) in a transmission mode through a gear meshing effect, and one end of the connecting rope section is connected with the winding shaft (14).

3. The water resource and water environment monitoring and early warning device according to claim 1, characterized in that: the multi-azimuth liquid taking assembly (5) comprises:

the bearing piece (51) is fixed in the middle of the upper fixed body piece (3), and the section of the upper end surface of the bearing piece (51) is of an arc structure;

the inner rotating shaft (52) is arranged on the bearing piece (51) in a relatively rotatable manner through a plurality of rotors, and a guide pipe (53) vertically penetrates through and is fixed on the inner rotating shaft (52);

the transfer pipe (54) is connected to the upper end of the conveying pipe (53), and the other end of the transfer pipe (54) is communicated with an extraction pump (55);

the liquid storage tank (56) is vertically fixed on one side of the upper end face of the mounting support (1) through a fixing frame, the output end of the extraction pump (55) is communicated with the liquid storage tank (56), and one end of the water quality detection device (6) is vertically inserted into the liquid storage tank (56);

the drain pipe (57) is vertically communicated below the liquid storage tank (56); and

the liquid taking devices (7) are circumferentially symmetrically arranged, each liquid taking device (7) is fixed to the lower end face of the mounting support (1), and each liquid taking device (7) is communicated with the guide pipe (53).

4. The water resource and water environment monitoring and early warning device according to claim 3, characterized in that: the liquid extraction device (7) comprises:

an upper connecting frame (71);

the outer fixing bin (72) is vertically fixed on the lower end face of the upper connecting frame (71), and an outer connecting frame is vertically fixed on one side of the outer fixing bin (72);

the multi-liquid-level collecting pipes (8) are vertically arranged, each multi-liquid-level collecting pipe (8) is fixed on the outer connecting frame, conveying inner pipes (73) are communicated with the multi-liquid-level collecting pipes (8), and one ends of the conveying inner pipes (73) are communicated with the outer fixing bin (72);

the inner flow pipe (76) is coaxially fixed in the outer fixing bin (72), and one end of the inner flow pipe (76) is communicated with the guide pipe (53);

the sealing plug piece (74) is sleeved on the inner flow pipe (76) in a sliding mode, and the sealing plug piece (74) is arranged in the outer fixed bin (72) in a sliding mode;

the main pneumatic pressing piece (75) is arranged in the outer fixing bin (72) in a sliding mode and is positioned above the sealing plug piece (74), and the main pneumatic pressing piece (75) is connected with the sealing plug piece (74) through a branch rod body; and

and the airflow pipes (77) are arranged corresponding to the external fixed bins (72), one ends of the airflow pipes (77) are communicated with the internal flow pipes (76), and the other ends of the airflow pipes (77) are communicated with an external air pump.

5. The water resource and water environment monitoring and early warning device according to claim 4, characterized in that: the air flow pipes (77) can independently supply and discharge air.

6. The water resource and water environment monitoring and early warning device according to claim 4, characterized in that: an inner guide pipe (81) is arranged in the multi-liquid-level collecting pipe (8) in a relatively sliding manner, a plurality of liquid discharging holes are formed in the circumference of the multi-liquid-level collecting pipe (8), a plurality of through holes are correspondingly formed in the inner guide pipe (81), and a compression spring (82) is connected between the multi-liquid-level collecting pipe (8) and the inner guide pipe (81);

and a telescopic guide rod (83) is further arranged between the multi-liquid-level collecting pipe (8) and the inner guide pipe (81), a fixed hose (84) is connected below the inner guide pipe (81), the fixed hose (84) is connected with the conveying inner pipe (73), and an inner plug piece (85) is further arranged in the inner guide pipe (81) in a sliding manner.

7. The water resource and water environment monitoring and early warning device according to claim 1, characterized in that: the warning device (4) comprises:

a bearing seat (41);

the telescopic frame (44) is vertically fixed on the lower end face of the bearing frame (41), and one end of the telescopic frame (44) is fixed with the upper fixed body (3);

the external springs (42) are symmetrically connected between the bearing seat (41) and the upper fixed body part (3); and

the warning lamp body (43) is three groups arranged and mutually presents different warning color numbers.

8. The water resource and water environment monitoring and early warning device according to claim 1, characterized in that: and the mounting support (1) is also provided with a solar panel.

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