CN219300317U - Water quality monitoring station convenient to install in water - Google Patents

Abstract

The utility model discloses a water quality monitoring station convenient to install in water, which comprises a bracket and a sensor, wherein a rotating assembly is arranged in one side of the bracket, a conveying mechanism capable of moving the sensor left and right is hinged to the upper part of the rotating assembly, a retraction mechanism convenient for placing the sensor in water is arranged on the conveying mechanism, and a jacking mechanism is arranged below the retraction mechanism. The novel water-based monitoring station is characterized in that a simple and convenient structure which is convenient to install the detector in a water area far away from the offshore side is added on the basis of an original monitoring station, even if the detector is not arranged on a riverbed laying path or on the shore by means of a water vehicle, the detector is convenient to maintain and repair in the future.

Description

Water quality monitoring station convenient to install in water

Technical Field

The utility model relates to the field of water quality monitoring stations, in particular to a traditional shore type water quality monitoring station.

Background

The shore-based water quality monitoring station is arranged on the shore of a river, a lake, a pond, and other river basin in the near shore field, and is a small water quality monitoring system which is formed by combining a buoy body, a power supply system and data transmission equipment and is placed in a river, a lake, and other water areas with smaller fluidity by taking a water quality data acquisition instrument as a core and applying a sensing technology. Because the shore water quality monitoring station site is arranged on the shore, the water sample can only be obtained at the shore position, and the collected water sample is subjected to the factors of rain wash and shore backwater, so that the collected water sample can not truly reflect the water quality condition of the whole water area, if the detector is placed in the water area far away from the shore, the detector needs to travel to the water area on a riverbed laying path or by means of a water vehicle, the placing difficulty is greatly increased, and after the detector fails, the maintenance is also extremely unchanged. It is therefore desirable to devise a simple and convenient structure that facilitates the installation of the detector in a water area further from the offshore side, even without a riverbed route or on the shore by means of a water vehicle, while facilitating future maintenance and repair.

Accordingly, further improvements are needed in existing water quality monitoring stations.

Disclosure of Invention

The utility model aims to provide a water quality monitoring station which is convenient to install in water, and a simple and convenient structure which is convenient to install a detector in a water area far away from the offshore side, can be realized even if the detector is not on a riverbed laying path or on the shore by means of a water vehicle, and is convenient to maintain and repair in the future.

In order to achieve the above purpose, the present utility model adopts the following scheme:

the utility model provides a quality of water monitoring station convenient to install in aquatic, is including support and sensor, be provided with rotating assembly in support one side, rotating assembly upper portion articulates has can with the sensor left and right sides removes transport mechanism, be provided with on the transport mechanism and be convenient for with the sensor is placed the retraction mechanism in the aquatic, retraction mechanism below is provided with climbing mechanism.

Further, the support comprises a support arm, a data acquisition and control box is arranged on one side of the support arm, an operation cavity is arranged in the vertical portion of the support arm, a movable groove is arranged in the horizontal portion of the support arm, the operation cavity is communicated with the movable groove, and a solar panel is arranged at the top of the support arm.

Further, the rotating assembly comprises an upper rotating gear and a lower rotating gear which are arranged in the operating cavity, a handle is inserted in the middle of the lower rotating gear, and a chain is arranged between the upper rotating gear and the lower rotating gear.

Further, the conveying mechanism comprises rotating shafts arranged on the left side and the right side of the horizontal portion of the supporting arm, first conveying teeth are arranged on the two sides of each rotating shaft, conveying belts are symmetrically hinged to the two sides between the left rotating shaft and the right rotating shaft, second conveying teeth are arranged on the conveying belts, and the rotating shafts on the left side are fixed with the upper rotating gears.

Further, the winding and unwinding mechanism is including setting up cylinder on the conveyer belt and setting up the circular arc of support arm both sides is in the guide way, the cylinder middle part is provided with the wire winding groove, wire winding groove both sides are provided with spacing boss, every group spacing boss outside is provided with the tooth axle, the inside bayonet lock that is provided with of tooth axle, be provided with the draw-in groove on the bayonet lock, be provided with the arc kicking block on the draw-in groove, arc kicking block top is provided with the ball, the bayonet lock with be provided with the spring between the arc kicking block, the cylinder both ends still nest there is the axle sleeve, the arc kicking block alternates in the axle sleeve, circular arc is provided with the arc pit on one side of the guide way, arc pit bottom is provided with the square groove, the ball is in the circular arc is in the guide way and removes, the arc kicking block with the arc matches, be fixed with the data cable on the wire winding groove, the data cable other end is provided with the safety cover, the safety cover top is provided with the pipe, be provided with circular step on the counterweight pipe, the safety cover sets up in the safety cover.

Further, the jacking mechanism comprises square fixed blocks which are arranged on the right side of the supporting arm and are arranged in a front-back symmetrical mode, key grooves are formed in the bottoms of the square fixed blocks, jacking blocks which move up and down in the key grooves and the square grooves are arranged between the two groups of the key grooves, directional rotating blocks are arranged at the bottoms of the jacking blocks, and reset springs are arranged between the jacking blocks and the directional rotating blocks.

Further, a collector is arranged in the roller and connected with the data cable, wireless communication is adopted between the collector and the data acquisition and control box, and the data cable is made of waterproof insulating materials with steel cores.

In summary, compared with the prior art, the utility model has the following beneficial effects:

the utility model solves the defects of the existing water quality monitoring station, and has the following advantages that the structure is provided, so that the detector is convenient to install in the water area far away from the offshore side on the basis of the original monitoring station, the detector can be realized even if the detector is not laid on a riverbed path or on the shore by means of a water vehicle, and meanwhile, the detector is convenient to maintain and repair in the future.

Drawings

FIG. 1 is a perspective partial cross-sectional view I of the present utility model;

FIG. 2 is a perspective partial sectional view II of the present utility model;

FIG. 3 is a perspective partial cross-sectional view III of the present utility model;

FIG. 4 is a perspective partial cross-sectional view of a fourth embodiment of the present utility model;

FIG. 5 is a perspective partial view I of the present utility model;

FIG. 6 is a second perspective partial view of the present utility model;

fig. 7 is a perspective partial view III of the present utility model.

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. 1-7, a water quality monitoring station convenient to install in water comprises a support 1 and a sensor 100, wherein a rotating assembly 2 is arranged in one side of the support 1, a conveying mechanism 3 capable of enabling the sensor 100 to move left and right is hinged to the upper portion of the rotating assembly 2, a receiving and releasing mechanism 4 convenient to place the sensor 100 in water is arranged on the conveying mechanism 3, and a jacking mechanism 5 is arranged below the receiving and releasing mechanism 4.

The working flow is as follows:

the support 1 stands on the bank, the initial state the retraction jack 4 is located on one side of the bank, when the sensor 100 is required to be placed in water for sampling monitoring, the sensor 100 is installed on the retraction jack 4, the rotation component 2 is manually rotated to drive the transmission component 3 to transmit the retraction jack 4 to one side of a target water area, the retraction jack 4 is fixed on one side of the support 1, the rotation component 2 is continuously rotated, the retraction jack 4 does not move forward along with the transmission component 3 but rotates along with the retraction jack, the retraction jack 4 moves down the sensor 100 in water while rotating, thereby realizing that the sensor 100 can be conveniently and rapidly placed in water without a riverbed laying path or by means of a water vehicle, when the sensor fails or needs daily maintenance, the retraction jack 4 rotates to recover the ascending water surface of the sensor 100, and simultaneously, the jacking jack 5 is lifted up, the support 4 is not moved to the initial jack 5, and the initial maintenance of the retraction jack is not carried out, and the maintenance of the support is not carried out.

When the retracting mechanism 4 moves left and right, the round ball 406 moves in the circular arc guiding groove 402 to be placed to deviate up and down, and when the retracting mechanism 4 moves to the arc pit 409, the spring 407 pushes the arc jacking block 405 to the arc pit 409, so that the retracting mechanism 4 is fixed on the bracket 1 and cannot move left and right and can only rotate.

The directional rotating block 503 can only rotate downwards around the jacking block 502, when the protective cover 412 moves downwards, the weight pipe 413 enables the directional rotating block 503 to rotate downwards, when the weight pipe 413 is separated from the directional rotating block 503, the return spring 504 between the directional rotating block 503 and the jacking block 502 enables the directional rotating block 503 to return to a horizontal position, when the protective cover 412 moves upwards, the weight pipe 413 pushes up the directional rotating block 503, because the directional rotating block 503 cannot rotate upwards, the directional rotating block 503 and the jacking block 502 integrally move upwards, the jacking block 502 moves upwards and simultaneously extrudes the arc-shaped jacking block 405 out of the arc-shaped pit 409, so that the retraction mechanism 4 can move left and right along with the conveyor belt 303, when the conveyor belt 303 moves to the bank, the weight pipe 413 is separated from the directional rotating block 503, and the jacking block 502 moves away from the arc-shaped pit 409 due to the gravity.

The bracket 1 comprises a supporting arm 101, wherein a data acquisition and control box 102 is arranged on one side of the supporting arm 101, an operation cavity 1011 is arranged in the vertical part of the supporting arm 101, a movable groove 1012 is arranged in the horizontal part, the operation cavity 1011 is communicated with the movable groove 1012, and a solar panel 103 is arranged at the top of the supporting arm 101.

The rotating assembly 2 of the present utility model comprises an upper rotating gear 201 and a lower rotating gear 202 which are arranged in the operating cavity 1011, wherein a handle 203 is inserted in the middle of the lower rotating gear 202, and a chain 204 is arranged between the upper rotating gear 201 and the lower rotating gear 202.

The conveying mechanism 3 of the present utility model comprises rotating shafts 301 arranged at the left and right sides of the horizontal portion of the supporting arm 101, wherein a first conveying tooth 302 is arranged at both sides of each group of rotating shafts 301, a conveying belt 303 is symmetrically hinged at both sides between the left and right groups of rotating shafts 301, a second conveying tooth 304 is arranged on the conveying belt 303, and the rotating shafts 301 at the left side are fixed with the upper rotating gear 201.

The retracting mechanism 4 comprises a roller 401 arranged on a conveyor 303 and arc-shaped row guide grooves 402 arranged on two sides of a supporting arm 101, a winding groove 4011 is arranged in the middle of the roller 401, limiting bosses 4012 are arranged on two sides of the winding groove 4011, a tooth shaft 403 is arranged on the outer side of each group of limiting bosses 4012, a clamping pin 404 is arranged in each tooth shaft 403, a clamping groove 4041 is arranged on each clamping pin 404, an arc-shaped top block 405 is arranged on each clamping groove 4041, a ball 406 is arranged on the top of each arc-shaped top block 405, a spring 407 is arranged between each clamping pin 404 and each arc-shaped top block 405, shaft sleeves 408 are further nested at two ends of the roller 401, each arc-shaped top block 405 is inserted in each shaft sleeve 408, an arc-shaped 409 is arranged on one side of each arc-shaped row guide groove 402, each arc-shaped pit 409 is provided with a square groove 4091, each ball 406 moves in each arc-shaped row guide groove 402, each arc-shaped top block 405 is matched with each arc-shaped pit 409, a protecting cover 412 is fixedly provided with a cable 412, a counterweight 412 is arranged on the other, a counterweight 413 is arranged on the other, and a counterweight 413 is arranged on the data cable 412.

The jacking mechanism 5 comprises square fixed blocks 501 which are symmetrically arranged on the right side of the supporting arm 101 in a front-back mode, key grooves 5011 are arranged at the bottoms of the square fixed blocks in each group, jacking blocks 502 which move up and down in the key grooves 5011 and the square grooves 4091 are arranged between the two groups of key grooves 5011, directional rotating blocks 503 are arranged at the bottoms of the jacking blocks 502, and return springs 504 are arranged between the jacking blocks 502 and the directional rotating blocks 503.

In the utility model, a collector 601 is arranged in the roller 401, the collector 601 is connected with the data cable 410, wireless communication is adopted between the collector 601 and the data acquisition and control box 102, and the data cable 410 is made of a waterproof insulating material with a steel core.

While there has been shown and described what is at present considered to be the fundamental principles and the main features of the utility model and the advantages thereof, it will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, but is described in the foregoing description merely illustrates the principles of the utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model as hereinafter claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a water quality monitoring station convenient to install in aquatic, is including support (1) and sensor (100), its characterized in that: be provided with rotating assembly (2) in support (1) one side, rotating assembly (2) upper portion articulates has can with transport mechanism (3) that sensor (100) left and right movement, be provided with on transport mechanism (3) and be convenient for with receive and release mechanism (4) in sensor (100) place the aquatic, receive and release mechanism (4) below is provided with climbing mechanism (5).

2. A water quality monitoring station for facilitating installation in water as defined in claim 1, wherein: the support (1) comprises a support arm (101), a data acquisition and control box (102) is arranged on one side of the support arm (101), an operation cavity (1011) is arranged in the vertical portion of the support arm (101), a movable groove (1012) is arranged in the horizontal portion of the support arm, the operation cavity (1011) is communicated with the movable groove (1012), and a solar panel (103) is arranged at the top of the support arm (101).

3. A water quality monitoring station for facilitating installation in water as defined in claim 2, wherein: the rotating assembly (2) comprises an upper rotating gear (201) and a lower rotating gear (202) which are arranged in the operating cavity (1011), a handle (203) is inserted in the middle of the lower rotating gear (202), and a chain (204) is arranged between the upper rotating gear (201) and the lower rotating gear (202).

4. A water quality monitoring station for facilitating installation in water as claimed in claim 3, wherein: the conveying mechanism (3) comprises rotating shafts (301) arranged on the left side and the right side of the horizontal portion of the supporting arm (101), first conveying teeth (302) are arranged on the two sides of each rotating shaft (301), conveying belts (303) are symmetrically hinged to the two sides between the left rotating shaft and the right rotating shaft (301), second conveying teeth (304) are arranged on the conveying belts (303), and the rotating shafts (301) on the left side are fixed with the upper rotating gears (201).

5. A water quality monitoring station for facilitating installation in water as defined in claim 4, wherein: the winding and unwinding mechanism (4) comprises a roller (401) arranged on the conveyor belt (303) and arc-shaped row guide grooves (402) arranged on two sides of the supporting arm (101), a winding groove (4011) is arranged in the middle of the roller (401), limiting bosses (4012) are arranged on two sides of the winding groove (4011), a tooth shaft (403) is arranged on the outer side of each group of the limiting bosses (4012), a clamping pin (404) is arranged in each tooth shaft (403), a clamping groove (4041) is arranged on each clamping pin (404), an arc-shaped ejector block (405) is arranged on each clamping groove (4041), a round ball (406) is arranged at the top of each arc-shaped ejector block (405), a shaft sleeve (408) is further nested at two ends of the roller (401), each arc-shaped ejector block (405) is inserted in each pit (408), an arc-shaped row guide groove (402) is provided with an arc-shaped (409), an arc-shaped ejector block (405) is arranged at the bottom of each clamping groove (4041), an arc-shaped ejector block (405) is matched with the corresponding arc-shaped ejector block (405), an arc-shaped ejector block (405) is fixed in the arc-shaped ejector block (405), the data cable (410) other end is provided with safety cover (412), safety cover (412) top is provided with balance weight pipe (413), be provided with circular step (414) on balance weight pipe (413), sensor (100) set up in safety cover (412).

6. A water quality monitoring station for facilitating installation in water as defined in claim 5, wherein: the jacking mechanism (5) comprises square fixed blocks (501) which are symmetrically arranged around the right side of the supporting arm (101), key grooves (5011) are formed in the bottoms of the square fixed blocks, jacking blocks (502) which move up and down in the key grooves (5011) and the square grooves (4091) are arranged between the two groups of key grooves (5011), directional rotating blocks (503) are arranged at the bottoms of the jacking blocks (502), and reset springs (504) are arranged between the jacking blocks (502) and the directional rotating blocks (503).

7. A water quality monitoring station for facilitating installation in water as defined in claim 6, wherein: the novel intelligent data acquisition and control device is characterized in that a collector (601) is arranged in the roller (401), the collector (601) is connected with the data cable (410), wireless communication is adopted between the collector (601) and the data acquisition and control box (102), and the data cable (410) is made of a waterproof insulating material with a steel core.

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