Floating multi-parameter water quality detector

By setting up a fixing mechanism and a clamping mechanism, the problem of position drift of the floating multi-parameter water quality analyzer during water flow was solved, thus achieving equipment fixation and improving detection accuracy.

CN224480472UActive Publication Date: 2026-07-10JIANGSU ANGEL TESTING TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU ANGEL TESTING TECH CO LTD
Filing Date
2025-07-28
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Existing floating multi-parameter water quality analyzers are easily swept to other positions when water flows, resulting in inaccurate test results.

Method used

By setting up fixing and clamping mechanisms, the equipment can be fixed in a predetermined position, preventing the equipment from moving and improving the accuracy of detection.

Benefits of technology

This technology enables the equipment to be fixed during floating multi-parameter water quality testing, preventing equipment movement and improving testing accuracy.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This utility model relates to the technical field of floating multi-parameter water quality testing, and in particular to a floating multi-parameter water quality analyzer. By setting up a fixing mechanism and a clamping mechanism, the device can be fixed in a predetermined position during the floating multi-parameter water quality testing process, preventing movement and improving testing accuracy. It includes a floating mechanism; it also includes two sets of driving mechanisms, a fixing mechanism, a launching and retracting mechanism, a testing mechanism, and two sets of clamping mechanisms. The two sets of driving mechanisms are mounted on the floating mechanism, the fixing mechanism is mounted on the floating mechanism, the launching and retracting mechanism is mounted on the floating mechanism, the testing mechanism is mounted on the launching and retracting mechanism, and the two sets of clamping mechanisms are mounted on the testing mechanism. The floating mechanism floats, the driving mechanisms drive, the fixing mechanism fixes, the launching and retracting mechanism launches, the testing mechanism performs testing, and the clamping mechanisms clamp.
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Description

Technical Field

[0001] This utility model relates to the technical field of floating multi-parameter water quality detection, and in particular to a floating multi-parameter water quality detector. Background Technology

[0002] A multi-parameter water quality analyzer is an instrument used to detect water quality information. Existing multi-parameter water quality analyzers can be divided into two types: fixed and floating.

[0003] Among existing floating multi-parameter water quality analyzers, such as the one disclosed in utility model patent application number 202222844908.3, the multi-parameter water quality analyzer is installed on the hull of a boat. The boat is remotely controlled by a controller to move in the water area being tested to detect water quality information in real time. At the same time, the GPS navigation and positioning module is used to facilitate the positioning of the multi-parameter water quality analyzer and its subsequent recovery, thus avoiding certain economic losses.

[0004] However, during the floating multi-parameter water quality testing process, the equipment is easily swept to other positions due to the water flow, which can lead to inaccurate test results. Utility Model Content

[0005] To solve the above-mentioned technical problems, this utility model provides a floating multi-parameter water quality analyzer that, by setting a fixing mechanism and a clamping mechanism, can fix the equipment in a predetermined position during the floating multi-parameter water quality detection process, prevent the equipment from moving, and improve the detection accuracy.

[0006] This utility model discloses a floating multi-parameter water quality analyzer, which includes a floating mechanism; it also includes two sets of driving mechanisms, a fixing mechanism, a launching and retracting mechanism, a detection mechanism, and two sets of clamping mechanisms. The two sets of driving mechanisms are installed on the floating mechanism, the fixing mechanism is installed on the floating mechanism, the launching and retracting mechanism is installed on the floating mechanism, the detection mechanism is installed on the launching and retracting mechanism, and the two sets of clamping mechanisms are installed on the detection mechanism.

[0007] The floating mechanism floats, the driving mechanism drives, the fixing mechanism fixes, the retraction mechanism retracts, the detection mechanism detects, and the clamping mechanism clamps. The device floats on the water via the floating mechanism, moves to a predetermined position by opening the driving mechanism, is fixed by opening the fixing mechanism, releases the detection mechanism by opening the retraction mechanism, and simultaneously climbs onto the fixed mechanism via the clamping mechanism to detect water quality. This allows the floating multi-parameter water quality detection process to fix the device in a predetermined position, preventing movement and improving detection accuracy.

[0008] Preferably, the floating mechanism includes a hull and two sets of photovoltaic panels, with the two sets of photovoltaic panels mounted on the hull; the equipment floats via the hull and is charged via the photovoltaic panels.

[0009] Preferably, the drive mechanism includes a protective shell and a propeller, with the protective shell mounted on the hull and the propeller mounted on the protective shell; the hull is driven by opening the protective shell.

[0010] Preferably, the fixing mechanism includes a roller, a motor, a cable, and an anchor. The roller is rotatably mounted on the hull, the motor is mounted on the right side of the hull, and the output end of the motor is connected to the input end of the roller. One end of the cable is fixed to the roller, and the anchor is mounted on the other end of the cable. By turning on the motor, the roller rotates and, in conjunction with the cable, the anchor is lowered to anchor the hull.

[0011] Preferably, the launching and lowering mechanism includes a second roller, a second motor, and two sets of cables. The second roller is rotatably mounted on the hull, the second motor is mounted on the left end of the hull, and the output end of the second motor is connected to the input end of the second roller. One end of each set of cables is fixed to the second roller. By turning on the second motor, the second roller is driven to rotate and cooperate with the cables to lower the roller.

[0012] Preferably, the testing mechanism includes an equipment box, two sets of testing devices, and two sets of counterweights. The equipment box is mounted on two sets of cables, the two sets of testing devices are mounted on the equipment box, and the two sets of counterweights are mounted on the equipment box. The equipment is lowered using the counterweights, and the water quality is tested using the testing devices.

[0013] Preferably, the clamping mechanism includes a housing, a spring, and a clamping wheel. The housing is slidably mounted inside the equipment box by the spring, and the clamping wheel is rotatably mounted on the housing. The clamping wheel clamps the cable by supporting the housing with the spring.

[0014] Compared with the prior art, the beneficial effects of this utility model are as follows: the floating mechanism floats on the water, the drive mechanism moves the device to a predetermined position, the fixing mechanism fixes the device, the release mechanism releases the detection mechanism, and the clamping mechanism allows the detection mechanism to climb on the fixing mechanism. The detection mechanism then detects the water quality, thus fixing the device to a predetermined position during the floating multi-parameter water quality detection process, preventing the device from moving, and improving the accuracy of the detection. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the first isometric structure of this utility model;

[0016] Figure 2 This is a schematic diagram of the second isometric structure of this utility model;

[0017] Figure 3This is a right-side sectional isometric structural schematic diagram of this utility model;

[0018] Figure 4 This is a front view sectional isometric structural schematic diagram of this utility model;

[0019] The attached diagram is labeled as follows: 1. Floating mechanism; 11. Hull; 12. Photovoltaic panel; 2. Drive mechanism; 21. Protective shell; 22. Propeller; 3. Fixing mechanism; 31. Roller 1; 32. Motor 1; 33. Cable 1; 34. Anchor; 4. Retraction and deployment mechanism; 41. Roller 2; 42. Motor 2; 43. Cable 2; 5. Detection mechanism; 51. Equipment box; 52. Detection device; 53. Counterweight; 6. Clamping mechanism; 61. Box body; 62. Spring; 63. Clamping wheel. Detailed Implementation

[0020] To facilitate understanding of this utility model, a more complete description will be given below with reference to the accompanying drawings. This utility model can be implemented in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided to make the disclosure of this utility model more thorough and complete. Example 1

[0021] like Figures 1 to 4 As shown, a floating multi-parameter water quality analyzer includes a floating mechanism 1, two sets of driving mechanisms 2, a fixing mechanism 3, a take-up and release mechanism 4, a detection mechanism 5, and two sets of clamping mechanisms 6. The two sets of driving mechanisms 2 are installed on the floating mechanism 1, the fixing mechanism 3 is installed on the floating mechanism 1, the take-up and release mechanism 4 is installed on the floating mechanism 1, the detection mechanism 5 is installed on the take-up and release mechanism 4, and the two sets of clamping mechanisms 6 are installed on the detection mechanism 5.

[0022] The floating mechanism 1 floats, the driving mechanism 2 drives, the fixing mechanism 3 fixes, the take-up and release mechanism 4 takes up and releases, the detection mechanism 5 detects, and the clamping mechanism 6 clamps.

[0023] The floating mechanism 1 includes a hull 11 and two sets of photovoltaic panels 12, which are mounted on the hull 11.

[0024] The drive mechanism 2 includes a protective shell 21 and a propeller 22. The protective shell 21 is mounted on the hull 11, and the propeller 22 is mounted on the protective shell 21.

[0025] The fixing mechanism 3 includes a roller 31, a motor 32, a cable 33 and an anchor 34. The roller 31 is rotatably mounted on the hull 11. The motor 32 is mounted on the right end of the hull 11 and the output end of the motor 32 is connected to the input end of the roller 31. One end of the cable 33 is fixed to the roller 31 and the anchor 34 is mounted on the other end of the cable 33.

[0026] The take-up and take-down mechanism 4 includes a second roller 41, a second motor 42, and two sets of cables 43. The second roller 41 is rotatably mounted on the hull 11. The second motor 42 is mounted on the left end of the hull 11, and the output end of the second motor 42 is connected to the input end of the second roller 41. One end of each set of cables 43 is fixed to the second roller 41.

[0027] The testing mechanism 5 includes an equipment box 51, two sets of testing devices 52 and two sets of counterweights 53. The equipment box 51 is mounted on two sets of cables 43, the two sets of testing devices 52 are mounted on the equipment box 51, and the two sets of counterweights 53 are mounted on the equipment box 51.

[0028] The clamping mechanism 6 includes a housing 61, a spring 62, and a clamping wheel 63. The housing 61 is slidably mounted inside the equipment box 51 by the spring 62, and the clamping wheel 63 is rotatably mounted on the housing 61.

[0029] The equipment is floated by the hull 11 and charged by the photovoltaic panel 12. The hull 11 is driven to a predetermined position by opening the protective shell 21. The first motor 32 drives the first roller 31 to rotate, and the first cable 33 lowers the anchor 34 to anchor the hull 11. The second motor 42 drives the second roller 41 to rotate, and the second cable 43 is lowered. At the same time, the spring 62 supports the box 61, and the clamping wheel 63 clamps the first cable 33. The equipment is lowered by the counterweight 53. The water quality is detected by the detection device 52. In this floating multi-parameter water quality detection process, the equipment can be fixed in a predetermined position to prevent the equipment from moving and improve the detection accuracy.

[0030] like Figures 1 to 4 As shown, this utility model discloses a floating multi-parameter water quality analyzer. During operation, the device floats via a hull 11, is charged by a photovoltaic panel 12, and is driven to a predetermined position by opening the protective shell 21. A motor 32 drives a roller 31 to rotate, coordinating with a cable 33 to lower an anchor 34 and anchor the hull 11. A motor 42 drives a roller 41 to rotate, coordinating with the cable 43 to lower the device further. Simultaneously, a spring 62 supports the housing 61, causing a clamping wheel 63 to clamp the cable 33. The device is then lowered using a counterweight 53, and the water quality is detected by a detection device 52.

[0031] The photovoltaic panel 12, propeller 22, motor one 32, motor two 42 and detection device 52 of this utility model are purchased from the market. Technical personnel in this industry only need to install and operate them according to the accompanying instruction manual, without requiring any creative work from those skilled in the art.

[0032] The main function of this utility model is to fix the equipment in a predetermined position during the floating multi-parameter water quality detection process by setting a fixing mechanism and a clamping mechanism, thereby preventing the equipment from moving and improving the detection accuracy.

[0033] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.

Claims

1. A floating multi-parameter water quality analyzer, comprising a floating mechanism (1); characterized in that, It also includes two sets of drive mechanisms (2), a fixing mechanism (3), a take-up and release mechanism (4), a detection mechanism (5) and two sets of clamping mechanisms (6). The two sets of drive mechanisms (2) are installed on the floating mechanism (1), the fixing mechanism (3) is installed on the floating mechanism (1), the take-up and release mechanism (4) is installed on the floating mechanism (1), the detection mechanism (5) is installed on the take-up and release mechanism (4), and the two sets of clamping mechanisms (6) are installed on the detection mechanism (5). The floating mechanism (1) floats, the driving mechanism (2) drives, the fixing mechanism (3) fixes, the retraction mechanism (4) retracts, the detection mechanism (5) detects, and the clamping mechanism (6) clamps.

2. The floating multi-parameter water quality analyzer as described in claim 1, characterized in that, The floating mechanism (1) includes a hull (11) and two sets of photovoltaic panels (12), which are mounted on the hull (11).

3. The floating multi-parameter water quality analyzer as described in claim 2, characterized in that, The drive mechanism (2) includes a protective shell (21) and a propeller (22). The protective shell (21) is mounted on the hull (11), and the propeller (22) is mounted on the protective shell (21).

4. The floating multi-parameter water quality analyzer as described in claim 2, characterized in that, The fixing mechanism (3) includes a roller (31), a motor (32), a cable (33), and an anchor (34). The roller (31) is rotatably mounted on the hull (11). The motor (32) is mounted on the right end of the hull (11), and the output end of the motor (32) is connected to the input end of the roller (31). One end of the cable (33) is fixed to the roller (31), and the anchor (34) is mounted on the other end of the cable (33).

5. A floating multi-parameter water quality analyzer as described in claim 2, characterized in that, The take-up and take-down mechanism (4) includes a second roller (41), a second motor (42), and two sets of cables (43). The second roller (41) is rotatably mounted on the hull (11). The second motor (42) is mounted on the left end of the hull (11), and the output end of the second motor (42) is connected to the input end of the second roller (41). One end of the two sets of cables (43) is fixed on the second roller (41).

6. A floating multi-parameter water quality analyzer as described in claim 5, characterized in that, The testing mechanism (5) includes an equipment box (51), two sets of testing devices (52) and two sets of counterweights (53). The equipment box (51) is installed on two sets of cables (43), the two sets of testing devices (52) are installed on the equipment box (51), and the two sets of counterweights (53) are installed on the equipment box (51).

7. A floating multi-parameter water quality analyzer as described in claim 6, characterized in that, The clamping mechanism (6) includes a housing (61), a spring (62) and a clamping wheel (63). The housing (61) is slidably mounted inside the equipment box (51) by the spring (62), and the clamping wheel (63) is rotatably mounted on the housing (61).