CN221234003U - Buoy type water quality monitoring device - Google Patents

Abstract

The utility model relates to the technical field related to water quality monitoring, in particular to a buoy type water quality monitoring device which comprises a floating box, a placing box, a protection mechanism and an adjusting mechanism, wherein the placing box is fixedly connected to the upper surface of the floating box, the protection mechanism is arranged on the outer side surface of the floating box, and the adjusting mechanism is arranged on the inner side surface of the placing box. Through first spliced pole, first sliding tray, first spring, first stopper, the second spliced pole, the second spring, first guard plate, the second sliding tray, the setting of second guard plate and second stopper, when bumping the barrier, first guard plate is bumped to the barrier at first, the second spring shrink makes the impact force carry out first round and slows down, then the second spliced pole is through the first spring shrink of first stopper extrusion, carry out the second round and slow down the impact force, the impact force is minimum when reaching the body this moment, reach the effect of protection, the second guard plate can prevent that the collider from bumping the body in two first guard plate intervals.

Description

Buoy type water quality monitoring device

Technical Field

The utility model relates to the technical field related to water quality monitoring, in particular to a buoy type water quality monitoring device.

Background

The buoy type water quality monitoring device is characterized in that a buoy is used as a carrier, a chemical analysis instrument and various water quality sensors are integrated, and the modern technology is combined to realize limited means of environment water quality monitoring automation, networking and on-line monitoring, so that the buoy type water quality monitoring device is mainly applied to the fields of aquaculture, rivers, lakes and the like, is generally directly placed on the water surface to perform water quality monitoring, and is most required to perform water quality monitoring on a water source area of water body layering, however, the monitoring depth of a water source to be detected is subjected to layering spot check while the water body layering, and most of the existing buoy type water quality monitoring devices cannot be protected against a submerged reef or an obstacle when being used, so that the device body is easily damaged.

Disclosure of utility model

The utility model aims to provide a buoy type water quality monitoring device, which solves the problems that most of the buoy type water quality monitoring devices in the prior art cannot protect a body when encountering a submerged reef or an obstacle and are easy to damage the body of the device.

In order to achieve the above purpose, the present utility model provides the following technical solutions: buoy type water quality monitoring device, including float case, place case, signal receiver, warning light, photovoltaic board, protection machanism and adjustment mechanism, float case's top fixed surface is connected with places the case, place the top fixed surface of case and be provided with signal receiver, place the top surface of case and be provided with the warning light, place the outside fixed surface of case and be connected with photovoltaic board, float case's outside surface and be provided with protection machanism, place the inboard surface of case and be provided with adjustment mechanism.

Preferably, the floating box is of a hollow-out design in the middle, and four photovoltaic panels are arranged on the outer side surface of the placing box.

Preferably, the protection mechanism comprises a first connecting column, a first sliding groove, a first spring, a first limiting block, a second connecting column, a second spring, a first protection plate, a second sliding groove, a second protection plate and a second limiting block, wherein the first connecting column is fixedly connected with the outer side surface of the floating box, the first sliding groove is formed in one end surface of the first connecting column, the first spring is fixedly connected with the inner side surface of the first sliding groove, the first limiting block is fixedly connected with one end surface of the first spring, the second connecting column is fixedly connected with one end surface of the first limiting block, the second spring is sleeved on the outer side surface of the second connecting column, the first protection plate is fixedly connected with one end surface of the second connecting column, the second sliding groove is formed in the upper surface of the first protection plate, the second protection plate is fixedly connected with the inner side surface of the second sliding groove, and the second limiting block is fixedly connected with one end surface of the second protection plate.

Preferably, the second connecting column and the first connecting column form sliding connection through a first limiting block, and the second protection plate and the first protection plate form sliding connection through a second sliding groove.

Preferably, the second limiting blocks are symmetrically arranged on the central axis of the second protection plate, and the second protection plate is arranged between every two second protection plates.

Preferably, the adjustment mechanism comprises a motor, a rotating shaft, a bearing, a fixing piece, a gear, a first connecting piece, teeth, a second connecting piece, a probe and a protective cover, wherein the motor is fixedly connected with the inner side surface of the placement box, one end surface of the motor is fixedly connected with the rotating shaft, one end surface of the rotating shaft is fixedly connected with the bearing, the outer side surface of the bearing is fixedly connected with the fixing piece, the lower side surface of the fixing piece is fixedly connected with the inner side surface of the placement box, the gear is fixedly connected with the outer side surface of the rotating shaft, the teeth are formed on one side surface of the first connecting piece, the teeth are meshed and connected with the outer side surface of the gear, one end surface of the first connecting piece is fixedly connected with the second connecting piece, the outer side surface of the second connecting piece is fixedly connected with the probe, one end surface of the second connecting piece is fixedly connected with the protective cover, and the probe is arranged on the inner side of the protective cover.

Preferably, the gear and the motor form a rotating structure through a rotating shaft, and the first connecting piece is in sliding connection with the placing box through the gear.

Preferably, the teeth are distributed at equal intervals on one side surface of the first connecting piece, and the probes are arranged on the outer side surface of the second connecting piece.

Compared with the prior art, the utility model has the beneficial effects that: this buoy type water quality monitoring device, through first spliced pole, first sliding tray, first spring, first stopper, the second spliced pole, the second spring, first guard plate, the second sliding tray, the setting of second guard plate and second stopper, when bumping the barrier, first guard plate is bumped to the barrier at first, the second spring shrink this moment, make the impact force carry out first round and slow down, then the second spliced pole is through the first spring shrink of first stopper extrusion, carry out the second round and slow down the impact force, the impact force is minimum when reaching the body this moment, thereby reach the effect of protection, the second guard plate can prevent that the collider from bumping the body in two first guard plate intervals.

Drawings

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

FIG. 2 is a schematic view of the overall cross-sectional appearance structure of the present utility model;

FIG. 3 is a schematic view of a protecting mechanism according to the present utility model;

FIG. 4 is a schematic view of the structure of the adjusting mechanism of the present utility model;

fig. 5 is a schematic view of the overall top view of the present utility model.

In the figure: 1. a flotation tank; 2. placing a box; 3. a signal receiver; 4. an alarm lamp; 5. a photovoltaic panel; 6. a protective mechanism; 601. a first connection post; 602. a first sliding groove; 603. a first spring; 604. a first limiting block; 605. a second connection post; 606. a second spring; 607. a first protection plate; 608. a second sliding groove; 609. a second protection plate; 610. a second limiting block; 7. an adjusting mechanism; 701. a motor; 702. a rotating shaft; 703. a bearing; 704. a fixing member; 705. a gear; 706. a first connector; 707. teeth; 708. a second connector; 709. a probe; 710. and a protective cover.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: buoy type water quality monitoring device, including float case 1, place case 2, signal receiver 3, warning light 4, photovoltaic board 5, protection machanism 6 and adjustment mechanism 7, float case 1's top fixed surface is connected with places case 2, places case 2's top fixed surface and is provided with signal receiver 3, places case 2's top surface and is provided with warning light 4, places case 2's outside fixed surface and is connected with photovoltaic board 5, float case 1's outside surface is provided with protection machanism 6, places case 2's inside surface and is provided with adjustment mechanism 7.

For better utilization of solar energy, the floating box 1 is designed to be hollow in the middle, and four photovoltaic panels 5 are arranged on the outer side surface of the placing box 2.

In order to prevent the body from being damaged when the body collides with an obstacle, the protection mechanism 6 comprises a first connecting column 601, a first sliding groove 602, a first spring 603, a first limiting block 604, a second connecting column 605, a second spring 606, a first protection plate 607, a second sliding groove 608, a second protection plate 609 and a second limiting block 610, wherein the first connecting column 601 is fixedly connected with the outer side surface of the floating box 1, the first sliding groove 602 is arranged on one end surface of the first connecting column 601, the first spring 603 is fixedly connected with the inner side surface of the first sliding groove 602, the first limiting block 604 is fixedly connected with one end surface of the first spring 603, the second connecting column 605 is fixedly connected with one end surface of the first limiting block 604, the second spring 606 is sleeved on the outer side surface of the second connecting column 605, the first protection plate 607 is fixedly connected with one end surface of the second connecting column 605, the upper surface of the first protection plate 607 is provided with a second sliding groove 608, the inner side surface of the second sliding groove 608 is connected with a second protection plate 609 in a sliding way, one end surface of the second protection plate 609 is fixedly connected with a second limiting block 610, when the first protection plate 607 collides with an obstacle, the obstacle collides with the first protection plate 607 firstly through the arrangement of the first connecting column 601, the first sliding groove 602, the first spring 603, the first limiting block 604, the second connecting column 605, the second spring 606, the first protection plate 607, the second protection plate 609 and the second limiting block 610, the second spring 606 contracts at the moment to enable the impact force to be relieved by the first wheel, then the second connecting column 605 contracts by the first spring 603 to enable the second wheel to relieve the impact force, at the moment, the impact force is minimum when reaching the body, thereby achieving the protection effect, the second shield plate 609 prevents the collision of the collider from the two first shield plates 607 spaced apart from each other to the body.

In order to enable the second connecting column 605 to slide better, the second connecting column 605 and the first connecting column 601 form sliding connection through the first limiting block 604, and the second protection plate 609 and the first protection plate 607 form sliding connection through the second sliding groove 608.

In order to limit the second protection plates 609, the second limiting blocks 610 are symmetrically arranged with the central axes of the second protection plates 609, and the second protection plates 609 are arranged between every two second protection plates 609.

In order to detect water quality with different depths, the adjusting mechanism 7 comprises a motor 701, a rotating shaft 702, a bearing 703, a fixing piece 704, a gear 705, a first connecting piece 706, a tooth 707, a second connecting piece 708, a probe 709 and a protective cover 710, wherein the motor 701 is fixedly connected to the inner side surface of the placement box 2, one end surface of the motor 701 is fixedly connected to the rotating shaft 702, one end surface of the rotating shaft 702 is fixedly connected to the bearing 703, the outer side surface of the bearing 703 is fixedly connected to the fixing piece 704, the lower surface of the fixing piece 704 is fixedly connected to the inner side surface of the placement box 2, the outer side surface of the rotating shaft 702 is fixedly connected to the gear 705, the tooth 707 is arranged on one side surface of the first connecting piece 706, the tooth 707 is meshed and connected to the outer side surface of the gear 705, one end surface of the first connecting piece 706 is fixedly connected to the second connecting piece 708, the outside surface fixedly connected with probe 709 of second connecting piece 708, the one end surface fixedly connected with protection casing 710 of second connecting piece 708, probe 709 is inboard in protection casing 710, through motor 701, axis of rotation 702, bearing 703, mounting 704, gear 705, first connecting piece 706, tooth 707, second connecting piece 708, probe 709 and the setting of protection casing 710, when detecting the quality of water of different degree of depth, at first start motor 701, make motor 701 pass through axis of rotation 702 drive gear 705 and rotate, then gear 705 passes through tooth 707 and makes first connecting piece 706 reciprocate, then detect through probe 709, protection casing 710 can prevent to have underwater organism to interfere with in the in-process of detection, also can prevent to have the pasture and water to get into, lead to blocking probe 709.

In order for the first link 706 to move up and down, the gear 705 forms a rotating structure with the motor 701 through the rotation shaft 702, and the first link 706 forms a sliding connection with the placement box 2 through the gear 705.

In order to allow the first link 706 to descend to a greater depth, teeth 707 are equally spaced on one side surface of the first link 706, and probes 709 are provided in three on an outer side surface of the second link 708.

Working principle: when the obstacle is collided, firstly the obstacle collides with the first protection plate 607, at the moment, the second spring 606 is contracted, so that the impact force is relieved by the first wheel, then the second connection column 605 is contracted by extruding the first spring 603 through the first limiting block 604, the impact force is relieved by the second wheel, the impact force reaches the body at the moment, the impact force is minimum, the protection effect is achieved, the second protection plate 609 can prevent the collision object from colliding with the body from the interval of the two first protection plates 607, when the water quality with different depths is detected, the motor 701 is started firstly, the motor 701 drives the gear 705 to rotate through the rotation shaft 702, then the gear 705 enables the first connection piece 706 to move up and down through the teeth 707, then the detection is carried out through the probe 709, the protection cover 710 can prevent the underwater organisms from interfering in the detection process, and also can prevent the aquatic plants from entering, so that the probe 709 is blocked.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Buoy type water quality monitoring device, its characterized in that: including float case (1), place case (2), signal receiver (3), warning light (4), photovoltaic board (5), protection machanism (6) and adjustment mechanism (7), the top fixed surface of float case (1) is connected with places case (2), the top fixed surface of placing case (2) is provided with signal receiver (3), the top surface of placing case (2) is provided with warning light (4), the outside fixed surface of placing case (2) is connected with photovoltaic board (5), the outside surface of float case (1) is provided with protection machanism (6), the inside surface of placing case (2) is provided with adjustment mechanism (7).

2. The float-type water quality monitoring device of claim 1, wherein: the floating box (1) is of a hollow-out design in the middle, and four photovoltaic panels (5) are arranged on the outer side surface of the placing box (2).

3. The float-type water quality monitoring device of claim 1, wherein: protection machanism (6) are including first spliced pole (601), first sliding tray (602), first spring (603), first stopper (604), second spliced pole (605), second spring (606), first guard plate (607), second sliding tray (608), second guard plate (609) and second stopper (610), the outside fixed surface of showy case (1) is connected with first spliced pole (601), first sliding tray (602) have been seted up to the one end surface of first spliced pole (601), the inboard fixed surface of first sliding tray (602) is connected with first spring (603), the one end fixed surface of first spring (603) is connected with first stopper (604), the one end fixed surface of first stopper (604) is connected with second spliced pole (605), the outside surface of second spliced pole (605) has cup jointed second spring (606), the one end fixed surface of second spliced pole (605) is connected with first spliced pole (601), the top surface of first spliced pole (607) is equipped with first guard plate (608), second guard plate (608) is connected with second surface (609).

4. A float-type water quality monitoring device according to claim 3, wherein: the second connecting column (605) and the first connecting column (601) form sliding connection through the first limiting block (604), and the second protection plate (609) and the first protection plate (607) form sliding connection through the second sliding groove (608).

5. A float-type water quality monitoring device according to claim 3, wherein: the second limiting blocks (610) are symmetrically arranged on the central axis of the second protection plates (609), and each second protection plate (609) is arranged between every two second protection plates (609).

6. The float-type water quality monitoring device of claim 1, wherein: the adjusting mechanism (7) comprises a motor (701), a rotating shaft (702), a bearing (703), a fixing piece (704), a gear (705), a first connecting piece (706), teeth (707), a second connecting piece (708), a probe (709) and a protective cover (710), wherein the motor (701) is fixedly connected with the inner side surface of the placing box (2), one end surface of the motor (701) is fixedly connected with the rotating shaft (702), one end surface of the rotating shaft (702) is fixedly connected with the bearing (703), the outer side surface of the bearing (703) is fixedly connected with the fixing piece (704), the lower surface of the fixing piece (704) is fixedly connected with the inner side surface of the placing box (2), the outer side surface of the rotating shaft (702) is fixedly connected with the gear (705), one side surface of the first connecting piece (706) is provided with the teeth (707), one end surface of the first connecting piece (706) is fixedly connected with the second connecting piece (708), one end surface of the second connecting piece (708) is fixedly connected with the outer side surface of the probe (708), the probe (709) is inside a shield (710).

7. The floating type water quality monitoring device as claimed in claim 6, wherein: the gear (705) and the motor (701) form a rotating structure through a rotating shaft (702), and the first connecting piece (706) and the placing box (2) form sliding connection through the gear (705).

8. The floating type water quality monitoring device as claimed in claim 6, wherein: the teeth (707) are equally spaced on one side surface of the first connection (706), and the probes (709) are arranged on the outer side surface of the second connection (708).