CN117890548B - Hydrologic monitoring device for waters with voice prompt facility - Google Patents

Abstract

The invention discloses a hydrologic monitoring device with voice prompt function for a water area, which relates to the technical field of hydrologic monitoring and comprises: the system comprises a first upright post and a second upright post, wherein the first upright post and the second upright post are respectively arranged at two sides of a water area, and a plurality of circuit ropes are arranged between the first upright post and the second upright post; the monitoring box is arranged on one side of the first upright post, and a monitoring module is arranged in the monitoring box; a drain table installed inside the monitoring box and located at one side of the monitoring module; the driving assembly is arranged on the outer sides of the plurality of circuit ropes, the first lifting assembly is arranged on the lower side of the driving assembly, and the water pumping assembly is arranged in the driving assembly. According to the invention, the first upright post, the second upright post and the circuit rope can establish the moving path of the sampling bottle crossing the water area junction, so that the sampling bottle can conveniently sample in a corresponding water area, and the position and the sampling depth of the sampling bottle can be conveniently adjusted.

Description

Hydrologic monitoring device for waters with voice prompt facility

Technical Field

The invention relates to the technical field of hydrologic monitoring, in particular to a hydrologic monitoring device for a water area with a voice prompt function.

Background

The hydrologic monitoring is to the hydrologic parameter real-time supervision such as river, lake, reservoir, channel and groundwater, and the monitoring content includes: the water level, flow velocity, rainfall (snow), evaporation, sediment, slush, soil moisture, water quality and the like, and the related data of the water quality in hydrologic monitoring can be monitored in real time by adopting related sensors along with the development of technology, so that the labor intensity of workers is reduced.

Through retrieval, chinese patent (publication No. CN 110702466B) discloses a hydrologic monitoring device, wherein a water sample collection barrel of a water body sampling mechanism of the patent is divided into a plurality of water sample storage cavities provided with water inlets, and each water inlet is provided with a sealing door; a rotating shaft penetrating through each water sample storage cavity is further arranged on the longitudinal central line of the water sample collection barrel, a deflector rod fixedly connected with the rotating shaft is arranged in each water sample storage cavity, and when the end head of each deflector rod rotates to the corresponding sealing door, the sealing door can be just jacked; the part of the upper end of the rotating shaft extending out of the water sample collection barrel is sleeved with a sleeve, the lower end of the sleeve is fixed with the water sample collection barrel, the rotating shaft is connected with the shaft center of the flexible shaft, the upper end of the sleeve is fixedly connected with the supporting tube of the flexible shaft, the flexible shaft is connected with an indicating disc, the shaft center of the flexible shaft is connected with an indicating needle rotating shaft on the indicating disc, indicating needles are fixed on the indicating needle rotating shaft, and the indicating disc is provided with indicating marks corresponding to the sealing doors one by one.

In the prior art, the water quality at the boundary of a water area varies according to various factors such as geographic positions, water flow conditions, artificial activities and the like.

Generally, the water quality of the junction may be affected by the upstream water quality and the pollution discharge in the area near the junction, and the water quality may have the characteristics of larger water quality fluctuation, higher pollutant concentration, unstable water ecology and the like, and the width of the water junction is generally narrower, so the invention provides a water hydrologic monitoring device with a voice prompt function for collecting a water sample of the water junction for detection.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a water area hydrologic monitoring device with a voice prompt function.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a waters are with hydrologic monitoring devices with voice prompt facility, includes first stand, second stand, monitoring case and drive assembly, and drive assembly's internally mounted has the subassembly that draws water, first stand and second stand erect respectively on the both sides bank of waters juncture, the monitoring case is installed in one side of first stand, and installs a plurality of circuit ropes between first stand and the second stand, drive assembly installs in the outside of a plurality of circuit ropes;

The lower side of the driving assembly is provided with a first lifting assembly, the output end of the first lifting assembly is provided with a sampling bottle, the output end of the water pumping assembly is connected with the sampling bottle, and after the water pumping assembly is started, the sampling bottle extracts a water body sample in a water area;

After the driving assembly is started, the sampling bottle is moved to the upper side of the water area through the first lifting assembly, and the first lifting assembly descends to enable the sampling bottle to descend to the depth corresponding to the water area, so that water sampling is carried out, and a water sample is obtained;

A second lifting assembly is arranged in the first upright post, and a connecting assembly is arranged at the output end of the second lifting assembly;

After sampling, the sampling bottle is moved to one side of the connecting component based on the driving component, the connection between the sampling bottle and the connecting component is disconnected, and then the connecting component descends based on the second lifting component, so that the sampling bottle is embedded into the monitoring box;

A drainage table is arranged in the monitoring box, and a monitoring module is arranged at one side of the drainage table in the monitoring box;

After entering the monitoring box, the sampling bottle is placed on the upper side of the water draining table, and the monitoring module detects a water body sample in the sampling bottle;

The monitoring module comprises a plurality of driving units, a plurality of detecting units and a voice unit;

the detection units are respectively connected with a group of driving units, and after the sampling bottle is placed on the upper side of the drainage table, each detection unit moves to the inside of the sampling bottle based on the corresponding driving unit to detect, acquires corresponding detection information and transmits the detection information to the voice unit;

After authorization, the voice unit prompts and sends the detection information.

Further, the inside clamping structure that is located the upside of drain table that is located of monitoring case installs, and the sampling bottle is placed behind the drain table upside, and its body passes from clamping structure to during the detection, clamping structure carries out the centre gripping with the sampling bottle, fixes it in the drain table upside.

Further, the water draining table comprises a supporting table, a water draining pipe is arranged on one side of the supporting table, and a communicating groove communicated with the water draining pipe is formed in the supporting table;

the internally mounted of intercommunication groove has the second stroke cylinder, the output of second stroke cylinder is upwards, and installs the roof.

Further, an opening is formed in one side, facing the first upright post, of the monitoring box, a first travel cylinder is mounted on one side, located at the opening, of the monitoring box, the output end of the first travel cylinder faces the opening, and a shielding plate is mounted on the output end of the first travel cylinder;

when not in use, the shielding plate separates the opening through the first travel cylinder, and when the sampling bottle needs to pass through, the first travel cylinder brings the shielding plate away from the opening, so that the opening is communicated with the monitoring box.

Further, the sampling bottle comprises a bottle body and a carrier plate, wherein the top end of the bottle body is provided with a detection port, and the lower side of the bottle body is provided with a water outlet;

The lower side of the carrier plate is provided with a first magnetic attraction mechanism, and the upper side of the carrier plate is provided with a connecting piece, so that the carrier plate is convenient to connect with the first lifting assembly through the connecting piece;

The upper side of the bottle body is provided with a magnetic attraction part corresponding to the first magnetic attraction mechanism, and after the first magnetic attraction mechanism is started, the bottle body is adsorbed, and a detection port at the top of the bottle body is sealed;

the bottom of the bottle body is provided with the sealing plate through a plurality of elastic pieces, and when the sealing plate is not subjected to external force, the elastic pieces fix the sealing plate on the upper side of the water outlet at the bottom of the bottle body, and the water outlet is sealed.

Further, an extension part is arranged on one side of the carrier plate, facing the connecting assembly, and a plurality of magnetic pieces are arranged on the upper side of the extension part.

Further, the connecting component comprises a movable frame connected with the output end of the second lifting component, and a second magnetic attraction mechanism is arranged on the lower side of the movable frame;

when the sampling bottle is assembled with the connecting component, the extending part in the sampling bottle moves to the lower side of the movable frame, the second magnetic attraction mechanism covers the upper side of each magnetic part, and after the second magnetic attraction mechanism is started, the second magnetic attraction mechanism is assembled with the carrier plate through the magnetic parts.

Further, the first lifting assembly comprises a shell, a bidirectional screw rod mechanism is installed in the shell, and the output end of the bidirectional screw rod mechanism is connected with the manipulator through a transmission frame.

Further, the transmission frame comprises two groups of hard parts, and the two groups of hard parts are connected through an elastic part;

after the first lifting assembly drives the sampling bottle to move to one side of the connecting assembly, if the extending part in the sampling bottle is not in a horizontal state, the connecting assembly is connected with the sampling bottle, and the transmission frame can be driven to change in the moving range through the elastic part, so that the sampling bottle and the connecting assembly can be assembled conveniently.

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

According to the invention, the first upright post, the second upright post and the circuit rope can establish a sampling bottle moving path crossing the water area interface, so that the sampling bottle can conveniently sample in a corresponding water area, and the position and the sampling depth of the sampling bottle can be conveniently adjusted;

after sampling, the sampling bottle and the first lifting assembly can be separated through the connecting assembly, the sampling bottle is moved into the monitoring box for inspection, the connecting angle between the connecting assembly and the sampling bottle is large, and the sampling bottle can be assembled with sampling bottles in different horizontal states, so that the applicability and the practicability of the device can be improved;

further, after the monitoring module detects the water body sample in the sampling bottle, the water body sample can be conveniently discharged, and the assembly is rapidly completed again with the first lifting assembly, so that the water body at the next side is rapidly sampled.

Drawings

FIG. 1 is a schematic diagram of a water area hydrologic monitoring device with voice prompt function;

FIG. 2 is a side cross-sectional view of a monitor box according to the present invention;

FIG. 3 is a side cross-sectional view of a sample bottle of the present invention;

FIG. 4 is a schematic view of a connection structure of a first pillar and a connection assembly according to the present invention;

FIG. 5 is a cross-sectional view of a first lift assembly of the present invention;

In the figure: 1. a first upright; 2. a second upright; 3. a line rope; 4. a monitoring box; 5. a monitoring module; 6. a drive assembly; 7. a first lifting assembly; 8. sampling bottle; 9. a second lifting assembly; 10. a connection assembly; 11. a clamping structure; 12. a water discharge table; 41. an opening; 42. a first stroke cylinder; 43. a shielding plate; 121. a support table; 122. a drain pipe; 123. a second stroke cylinder; 124. a top plate; 81. a bottle body; 82. a carrier plate; 83. an elastic member; 84. a closing plate; 85. a connecting piece; 86. a first magnetic attraction mechanism; 87. a magnetic member; 101. a moving rack; 102. a second magnetic attraction mechanism; 71. a housing; 72. a two-way screw rod mechanism; 73. a transmission frame; 74. and a manipulator.

Detailed Description

Referring to fig. 1 to 5, a water area hydrologic monitoring device with voice prompt function comprises a first upright 1, a second upright 2, a monitoring box 4 and a driving component 6, wherein a pumping component is arranged in the driving component 6, the first upright 1 and the second upright 2 are respectively erected on the banks at two sides of a water area juncture, the monitoring box 4 is arranged at one side of the first upright 1, a plurality of line ropes 3 are arranged between the first upright 1 and the second upright 2, and the driving component 6 is arranged at the outer sides of the line ropes 3;

The lower side of the driving component 6 is provided with a first lifting component 7, the output end of the first lifting component 7 is provided with a sampling bottle 8, the output end of the pumping component is connected with the sampling bottle 8, and after the pumping component is started, the sampling bottle 8 extracts a water body sample in the water area;

After the driving assembly 6 is started, the sampling bottle 8 is moved to the upper side of the water area through the first lifting assembly 7, the first lifting assembly 7 descends, and the sampling bottle 8 descends to the depth corresponding to the water area, so that water sampling is carried out, and a water sample is obtained;

A second lifting assembly 9 is arranged in the first upright 1, and a connecting assembly 10 is arranged at the output end of the second lifting assembly 9;

After the sampling bottle 8 is sampled, based on the driving component 6 moving to one side of the connecting component 10, the connection between the sampling bottle 8 and the connecting component 10 is disconnected, and then the connecting component 10 descends based on the second lifting component 9, so that the sampling bottle 8 is embedded into the monitoring box 4;

A drain table 12 is arranged in the monitoring box 4, and a monitoring module 5 is arranged on one side of the drain table 12 in the monitoring box 4;

After entering the monitoring box 4, the sampling bottle 8 is placed on the upper side of the water draining table 12, and the monitoring module 5 detects the water body sample in the sampling bottle 8;

The monitoring module 5 comprises a plurality of driving units, a plurality of detecting units and a voice unit;

The detection units are respectively connected with a group of driving units, and after the sampling bottle 8 is placed on the upper side of the water draining table 12, each detection unit moves to the inside of the sampling bottle 8 based on the corresponding driving unit to detect, acquires corresponding detection information, and transmits the detection information to the voice unit;

After authorization, the voice unit prompts and sends the detection information.

Referring to fig. 2, a clamping structure 11 is mounted on the upper side of the drain table 12 in the monitoring box 4, and after the sampling bottle 8 is placed on the upper side of the drain table 12, the body passes through the clamping structure 11, and when detecting, the clamping structure 11 clamps the sampling bottle 8 and fixes it on the upper side of the drain table 12.

The water draining table 12 comprises a supporting table 121, a water draining pipe 122 is arranged on one side of the supporting table 121, and a communicating groove communicated with the water draining pipe 122 is formed in the supporting table 121;

The second stroke cylinder 123 is installed inside the communication groove, and the output end of the second stroke cylinder 123 faces upward and is installed with the top plate 124.

An opening 41 is formed in one side, facing the first upright 1, of the monitoring box 4, a first travel cylinder 42 is mounted on one side, located at the opening 41, of the monitoring box 4, an output end of the first travel cylinder 42 faces the opening 41, and a shielding plate 43 is mounted;

when not in use, the shutter 43 separates the opening 41 by a first travel cylinder 42, and when the sample bottle 8 needs to pass, the first travel cylinder 42 brings the shutter 43 away from the opening 41, thereby communicating the opening 41 with the monitoring box 4.

Referring to fig. 3, the sampling bottle 8 includes a bottle body 81 and a carrier plate 82, a detection port is formed at the top end of the bottle body 81, a water outlet is formed at the lower side of the bottle body 81, and the size of the water outlet is smaller than that of the communication groove;

After the sampling bottle 8 is placed on the upper side of the water draining table 12, the center of the water outlet and the center of the communicating groove are positioned on the same axial extension line, so that the water body sample is conveniently drained;

The first magnetic attraction mechanism 86 is arranged on the lower side of the carrier plate 82, and the connecting piece 85 is arranged on the upper side of the carrier plate 82, so that the carrier plate 82 is conveniently connected with the first lifting assembly 7 through the connecting piece 85;

The upper side of the bottle 81 is provided with a magnetic attraction part corresponding to the first magnetic attraction mechanism 86, after the first magnetic attraction mechanism 86 is started, the bottle 81 is attracted, and a detection port at the top of the bottle 81 is sealed;

the bottom of the bottle 81 is provided with a closing plate 84 through a plurality of elastic members 83, and when the closing plate 84 is not subjected to external force, the elastic members 83 fix the closing plate 84 on the upper side of the water outlet at the bottom of the bottle 81, and seal the water outlet.

The carrier 82 is provided with an extension portion on a side facing the connection assembly 10, and a plurality of magnetic members 87 are mounted on an upper side of the extension portion.

Referring to fig. 4, the connection assembly 10 includes a moving frame 101 connected to an output end of the second lifting assembly 9, and a second magnetic attraction mechanism 102 is installed at a lower side of the moving frame 101;

When the sampling bottle 8 is assembled with the connecting assembly 10, the extending part in the sampling bottle 8 moves to the lower side of the moving frame 101, the second magnetic attraction mechanism 102 covers the upper sides of the magnetic pieces 87, and after the second magnetic attraction mechanism 102 is started, the second magnetic attraction mechanism is assembled with the carrier plate 82 through the magnetic pieces 87.

Referring to fig. 5, the first elevating assembly 7 includes a housing 71, and a bidirectional screw mechanism 72 is installed inside the housing 71;

the bidirectional screw rod mechanism 72 comprises a screw rod part and a driving part, wherein the output end of the driving part is connected with the screw rod part, the driving part drives the screw rod part to rotate after being started, the two ends of the screw rod part are connected with transmission sleeves in a threaded manner, and the two transmission sleeves are connected with the manipulator 74 in a rotating manner through a group of transmission frames 73;

And the lower side of the shell 71 is provided with a sliding groove, and the two groups of transmission frames 73 are both in sliding connection with the sliding groove, so that after the screw rod part of the bidirectional screw rod mechanism 72 rotates, the two groups of transmission frames 73 avoid rotating by themselves through the sliding groove and slide relatively along the sliding groove in the direction, and then the mechanical arm 74 is driven to descend.

The transmission frame 73 comprises two groups of hard parts, and the two groups of hard parts are connected through an elastic part;

after the first lifting assembly 7 drives the sampling bottle 8 to move to one side of the connecting assembly 10, if the extending part in the sampling bottle 8 is not in a horizontal state, after the connecting assembly 10 is connected with the sampling bottle 8, the transmission frame 73 can be driven to change in the moving range through the elastic part, so that the sampling bottle 8 and the connecting assembly 10 can be assembled conveniently.

Working principle:

When water sampling is carried out, the driving assembly 6 is started, the first lifting assembly 7 and the sampling bottle 8 are moved to the upper side of the corresponding water area along the line rope 3, then the first lifting assembly 7 is started, the sampling bottle 8 is lowered to the corresponding depth of the water area, then the water pumping assembly in the driving assembly 6 is started, and water is pumped into the sampling bottle 8, so that a water body sample is obtained;

the first lifting assembly 7 is reset, the driving assembly 6 moves the sampling bottle 8 to one side of the connecting assembly 10, after the driving assembly 6 moves to one side of the connecting assembly 10, the extending part on one side of the carrier plate 82 in the sampling bottle 8 moves to the lower side of the connecting assembly 10, then the second magnetic attraction mechanism 102 in the connecting assembly 10 is started, the connection with the sampling bottle 8 is completed through the magnetic piece 87, then the manipulator 74 in the first lifting assembly 7 releases the clamping of the connecting piece 85 in the sampling bottle 8, then the second lifting assembly 9 is started, the sampling bottle 8 is driven to descend into the monitoring box 4 through the connecting assembly 10 until the sampling bottle 8 moves to the upper side of the drainage table 12, and the sampling bottle 8 penetrates through the clamping structure 11 before being located on the upper side of the drainage table 12;

the clamping structure 11 is started to clamp the sampling bottle 8, then the first magnetic attraction mechanism 86 is disconnected with the bottle body 81, and the second lifting assembly 9 drives the carrier plate 82 to lift through the connecting assembly 10;

then, each driving unit in the monitoring module 5 drives the detection unit to move into the bottle 81 respectively, detects corresponding items of the water body sample, and transmits detection data to the voice unit;

After the detection is completed, the second stroke cylinder 123 is started, the sealing plate 84 is lifted upwards through the top plate 124 by the stretching elastic piece 83, the water outlet of the bottle 81 is communicated with the communicating groove, and the water body sample in the bottle 81 is discharged from the drain pipe 122 along the communicating groove;

Finally, the carrier plate 82 moves to the upper side of the bottle 81 again under the drive of the second lifting assembly 9 and the connecting assembly 10, the first magnetic attraction mechanism 86 is started to be connected with the bottle 81 again, the clamping structure 11 releases the bottle 81, the bottle 81 and the carrier plate 82 are recombined, and the manipulator 74 in the first lifting assembly 7 clamps the sampling bottle 8 again along with the lifting of the second lifting assembly 9 and the connecting assembly 10 to one side of the first lifting assembly 7.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to those skilled in the art without departing from the principles of the present invention are intended to be considered as protecting the scope of the present template.

Claims (1)

1. A hydrologic monitoring device for waters with voice prompt facility, its characterized in that includes:

the system comprises a first upright post (1) and a second upright post (2), wherein the first upright post (1) and the second upright post (2) are respectively arranged on two sides of a water area, and a plurality of circuit ropes (3) are arranged between the first upright post (1) and the second upright post (2);

A second lifting assembly (9) is arranged in the first upright post (1), and a connecting assembly (10) is arranged at the output end of the second lifting assembly (9);

the monitoring box (4) is arranged on one side of the first upright post (1), and a monitoring module (5) is arranged in the monitoring box (4);

an opening (41) is formed in one side, facing the first upright post (1), of the monitoring box (4), a first travel cylinder (42) is arranged in one side, located at the opening (41), of the monitoring box (4), the output end of the first travel cylinder (42) faces the opening (41), and a shielding plate (43) is arranged;

a drain table (12) which is installed inside the monitoring box (4) and is positioned at one side of the monitoring module (5);

The driving assembly (6) is arranged on the outer sides of the plurality of circuit ropes (3), a first lifting assembly (7) is arranged on the lower side of the driving assembly (6), and a water pumping assembly is arranged in the driving assembly (6);

a clamping structure (11) is arranged on the upper side of the drainage table (12) inside the monitoring box (4);

the sampling bottle (8) passes through the clamping structure (11) and is placed on the water draining table (12);

The water draining table (12) comprises a supporting table (121), a water draining pipe (122) is arranged on one side of the supporting table (121), and a communicating groove communicated with the water draining pipe (122) is formed in the supporting table (121);

A second stroke cylinder (123) is arranged in the communication groove, the output end of the second stroke cylinder (123) faces upwards, and a top plate (124) is arranged in the communication groove;

The first lifting assembly (7) comprises a shell (71), a bidirectional screw rod mechanism (72) is arranged in the shell (71), and the output end of the bidirectional screw rod mechanism (72) is connected with a manipulator (74) through a transmission frame (73);

the transmission frame (73) comprises two groups of hard parts, and the two groups of hard parts are connected through an elastic part;

The sampling bottle (8) is connected with the output end of the first lifting assembly (7), and the sampling bottle (8) is connected with the pumping assembly; the monitoring module (5) comprises a plurality of driving units, a plurality of detecting units and a voice unit;

The connecting component (10) comprises a movable frame (101) connected with the output end of the second lifting component (9), and a second magnetic attraction mechanism (102) is arranged on the lower side of the movable frame (101);

the sampling bottle (8) comprises a bottle body (81) and a carrier plate (82), a detection port is formed in the top end of the bottle body (81), and a water outlet is formed in the lower side of the bottle body (81);

The lower side of the carrier plate (82) is provided with a first magnetic attraction mechanism (86), and the upper side of the carrier plate (82) is provided with a connecting piece (85);

The upper side of the bottle body (81) is provided with a magnetic attraction part corresponding to the first magnetic attraction mechanism (86);

The bottom of the bottle body (81) is provided with a sealing plate (84) through a plurality of elastic pieces (83);

an extension part is arranged on one side of the carrier plate (82) facing the connecting assembly (10), and a plurality of magnetic pieces (87) are arranged on the upper side of the extension part;

the detection units are respectively connected with a group of driving units, each detection unit moves to the inside of the sampling bottle (8) for detection based on the corresponding driving unit, acquires corresponding detection information, and transmits the detection information to the voice unit;

The voice unit prompts and transmits the detection information.