CN210090101U

CN210090101U - Sample collection system for marine environmental monitoring with store function

Info

Publication number: CN210090101U
Application number: CN201920402114.7U
Authority: CN
Inventors: 柯涛; 安劲松; 张建华; 张观希
Original assignee: Guangdong Sanhai Environmental Protection Technology Co Ltd
Current assignee: Guangdong Sanhai Environmental Protection Technology Co Ltd
Priority date: 2019-03-28
Filing date: 2019-03-28
Publication date: 2020-02-18
Anticipated expiration: 2029-03-28

Abstract

The utility model discloses a sample collection system for marine environment monitoring with store function, the loach carrying platform comprises a supporting fram, the middle part fixed mounting of support frame has the water pump, the below of inlet tube is provided with the sampling tube, and the left and right sides of sampling tube fixedly connected with screw sleeve and fixed block respectively, screw sleeve's inside through connection has the threaded rod, the inside through connection of fixed block has the slide bar, the upper end of threaded rod is connected with the output of motor through transmission, the upper end intercommunication of water pump has the outlet pipe, the inside block of depositing the case is connected with deposits the pipe, the inside through connection of gear has the crank, the lower extreme of dwang passes through spout sliding connection on the support frame. This sample collection system for marine environment monitoring with store function is convenient for gather according to the degree of depth of required sea water, also is convenient for classify the water of gathering to the difference simultaneously and deposits, convenient storage, convenient to use.

Description

Sample collection system for marine environmental monitoring with store function

Technical Field

The utility model relates to a relevant technical field of marine environment monitoring specifically is a sample collection system for marine environment monitoring with store function.

Background

At present, marine environment monitoring mainly includes on-line monitoring and artifical sampling monitoring, and on-line monitoring relies on establishing fixed on-line monitoring station, carries out real-time water quality data monitoring, and the cost is higher, and can't be in extensive application on a large scale, therefore artifical sampling monitoring is present main monitoring mode, and artifical sampling monitoring is mainly through on-the-spot sampling, then the testing personnel carry out water quality testing through the water sample of gathering, and artifical sampling monitoring flexibility is high, the operable range is wide.

However, general marine environmental monitoring all utilizes ship or unmanned aerial vehicle to extract the water sample, can not gather according to the degree of depth of sea water, also can not deposit the storage with the sea water sample of gathering simultaneously to inconvenient difference is gathered, influences work efficiency, for this we provide a marine environmental monitoring with store function and use sample collection system, is used for solving above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a sample collection system for marine environment monitoring with store function to solve general marine environment monitoring who proposes in the above-mentioned background art and all utilize ship or unmanned aerial vehicle to extract the water sample, can not gather according to the degree of depth of sea water, also can not deposit the storage with the sea water sample of gathering simultaneously, thereby inconvenient difference is gathered, influences work efficiency's problem.

In order to achieve the above object, the utility model provides a following technical scheme: a sample collecting device with a storage function for marine environment monitoring comprises a support frame, wherein a water pump is fixedly mounted in the middle of the support frame, the lower end of the water pump is communicated with a water inlet pipe, a sampling pipe is arranged below the water inlet pipe, the left side and the right side of the sampling pipe are respectively and fixedly connected with a threaded sleeve and a fixed block, the interior of the threaded sleeve is connected with a threaded rod in a penetrating manner, the upper end of the threaded rod penetrates through the interior of the support frame, a sliding rod is connected in the interior of the fixed block in a penetrating manner, the upper end of the sliding rod is welded on the lower end face of the support frame, the upper end of the threaded rod is connected with the output end of a motor through a transmission device, the motor is mounted at the left end of the support frame, the upper end of the water pump is communicated with a water outlet pipe, the inside through connection of gear has the crank, and welded connection has the dwang on the crank, the lower extreme of dwang passes through spout sliding connection on the support frame, and has seted up the recess on the spout.

Preferably, the connection mode of threaded sleeve and threaded rod is threaded connection, and threaded sleeve and sampling tube are welding integrated structure to the sampling tube passes through the threaded rod and constitutes elevation structure on the slide bar.

Preferably, the number of the storage pipes in the storage box is 6, the storage pipes are arranged in the storage box at equal angles, the outer surface of the lower end of the storage box is of a sawtooth structure, the storage box is connected with the gear in a meshing manner, and the number of the storage box and the number of the gear blocks of the gear are equal.

Preferably, the crank is of a sliding structure on the support frame through the rotating rod, 6 grooves in the support frame are arranged at equal angles, and the grooves are connected with the rotating rod in a clamping mode.

Preferably, the rotating rod and the sliding block form a telescopic structure, and the lower surface of the sliding block is of a hemispherical structure.

Preferably, transmission includes runner and belt, and the surface laminating of runner has the belt, and runner and belt constitute transmission structure, and the runner of the left and right sides is connected with the output of motor and the upper end of threaded rod respectively.

Compared with the prior art, the beneficial effects of the utility model are that: the sample collection device with the storage function for marine environment monitoring is convenient for collection according to the depth of required seawater, and is also convenient for classified storage of water collected at different depths, storage and use;

1. the sampling tube and the threaded rod are arranged, and the motor drives the threaded rod to rotate through the transmission device, so that the position of the sampling tube on the threaded rod is convenient to adjust, seawater at different depths can be conveniently collected according to needs, and the sampling tube is convenient to use;

2. the water sampling device is provided with a water outlet pipe, a storage box and storage pipes, water in the sampling pipe is conveniently pumped into the water outlet pipe through a water pump, so that the water is conveniently discharged into the storage pipes for storage, the storage pipes are connected in the storage box in a clamping manner, and meanwhile, 6 storage pipes are arranged, so that different types of water samples are conveniently stored, and the detection and use are convenient;

3. be equipped with gear, crank and dwang, be convenient for drive the gear through the crank and rotate to be convenient for drive the dwang and slide on the spout, thereby be convenient for adjust the turned angle of gear, be convenient for adjust the position of depositing the pipe, conveniently deposit the water sample.

Drawings

Fig. 1 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the storage box and the gear connection in a top view;

FIG. 3 is a schematic view of the top view structure of the crank and the chute;

FIG. 4 is a schematic view of the transmission device of the present invention;

fig. 5 is a schematic view of the front section structure of the rotating rod and the sliding block.

In the figure: 1. a support frame; 2. a water pump; 3. a water inlet pipe; 4. a sampling tube; 5. a threaded sleeve; 6. a fixed block; 7. a threaded rod; 8. a slide bar; 9. a water outlet pipe; 10. a storage box; 11. a storage tube; 12. a gear; 13. a crank; 14. rotating the rod; 15. a transmission device; 1501. a rotating wheel; 1502. a belt; 16. a motor; 17. a groove; 18. a chute; 19. a slide block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a sample collecting device with a storage function for marine environment monitoring comprises a support frame 1, a water pump 2, a water inlet pipe 3, a sampling pipe 4, a threaded sleeve 5, a fixed block 6, a threaded rod 7, a slide rod 8, a water outlet pipe 9, a storage box 10, a storage pipe 11, a gear 12, a crank 13, a rotating rod 14, a transmission device 15, a motor 16, a groove 17, a sliding groove 18 and a sliding block 19, wherein the water pump 2 is fixedly installed in the middle of the support frame 1, the lower end of the water pump 2 is communicated with the water inlet pipe 3, the sampling pipe 4 is arranged below the water inlet pipe 3, the threaded sleeve 5 and the fixed block 6 are respectively and fixedly connected to the left side and the right side of the sampling pipe 4, the threaded rod 7 is connected to the inside of the threaded sleeve 5 in a penetrating manner, the upper end of the threaded rod 7 penetrates through the inside of the support frame 1, the upper end of threaded rod 7 is connected with motor 16's output through transmission 15, and motor 16 installs the left end at support frame 1, the upper end intercommunication of water pump 2 has outlet pipe 9, and outlet pipe 9's right-hand member downside is provided with deposits case 10, the inside block of depositing case 10 is connected with deposits pipe 11, and the right side of depositing case 10 is connected with gear 12, the inside through connection of gear 12 has crank 13, and welded connection has dwang 14 on

crank

13, 18 sliding connection on support frame 1 are passed through to the lower extreme of dwang 14, and set up recess 17 on spout 18.

The connected mode of threaded sleeve 5 and threaded rod 7 is threaded connection as in figure 1, and threaded sleeve 5 and sampling tube 4 are welding integral structure, and sampling tube 4 passes through threaded rod 7 and constitutes elevation structure on slide bar 8, be convenient for adjust the height of sampling tube 4, thereby be convenient for take the sea water of the different degree of depth, it is provided with 6 to deposit pipe 11 in the inside of depositing case 10 etc. angle as in figures 1 and 2, and the lower extreme outward surface of depositing case 10 is the serration structure, it is connected for the meshing with the connected mode of gear 12 to deposit case 10, and the tooth piece number of depositing case 10 and gear 12 is equal, be convenient for through the rotation of gear 12, it rotates to drive and deposits case 10, also be convenient for simultaneously keep gear 12 and the turned angle of depositing case 10 equal.

Like in fig. 1, 3 and 5 crank 13 is sliding construction on support frame 1 through dwang 14, and the angle such as recess 17 on the support frame 1 is provided with 6, and recess 17 is connected for the block with the connected mode of dwang 14, be convenient for control turned angle, thereby be convenient for adjust the position of depositing pipe 11, conveniently deposit the water sample, constitute extending structure with slider 19 in fig. 1 and 5, and slider 19's lower surface is hemispherical structure, be convenient for adjust the interval of slider 19 and dwang 14, thereby when rotating dwang 14 hard, slider 19 separates with recess 17, during slow rotation, be convenient for carry out the block with recess 17 and be connected.

As shown in fig. 4, the transmission device 15 includes a rotating wheel 1501 and a belt 1502, the belt 1502 is attached to the outer surface of the rotating wheel 1501, the rotating wheel 1501 and the belt 1502 form a transmission structure, the rotating wheels 1501 on the left and right sides are respectively connected with the output end of the motor 16 and the upper end of the threaded rod 7, so as to facilitate connection of the threaded rod 7 and the motor 16, facilitate formation of the transmission structure, and drive the threaded rod 7 to rotate.

The working principle is as follows: when the sample collection device with the storage function for marine environment monitoring is used, firstly, the support frame 1 is fixedly installed on the stern through bolts, then a power switch of the motor 16 is turned on, the motor 16 drives the threaded rod 7 to rotate through the transmission device 15, the threaded rod 7 is in threaded connection with the threaded sleeve 5, so that the sampling tube 4 is driven to move up and down on the sliding rod 8, when seawater needs to be collected, the motor 16 is adjusted to rotate clockwise, so that the sampling tube 4 descends through the sliding rod 8, seawater can enter the inside of the sampling tube 4 and is convenient to collect, then the motor 16 is adjusted to rotate reversely, so that the sampling tube 4 ascends through the sliding rod 8, the upper end of the sampling tube 4 is in contact with the water inlet pipe 3, the water pump 2 is turned on, and when the power switch is turned on, water in the sampling tube 4 can be conveniently extracted, meanwhile, the seawater is discharged into the storage pipe 11 through the water outlet pipe 9 for storage, the seawater is convenient to take, detect and use, when the storage pipe 11 is full of water, the crank 13 is rotated, the crank 13 drives the gear 12 to rotate, so that the storage box 10 is convenient to drive to rotate, the rotating rod 14 on the crank 13 slides on the sliding groove 18 through the sliding block 19, the sliding groove 18 is internally provided with a groove 17, so that the groove 17 is in clamping connection with the sliding block 19, the sliding block 19 is in telescopic connection with the rotating rod 14, the distance between the sliding block 19 and the rotating rod 14 is convenient to adjust, the rotating angle is convenient to limit, the angle of the storage pipe 11 is convenient to adjust, the water discharged by the water outlet pipe 9 is convenient to store, when the crank 13 is continuously rotated, the sliding block 19 is upwards contracted, so that the seawater can continuously slide on the sliding groove 18 and is convenient to use, so that different seawater samples can be stored in different storage pipes 11, the sample collection device is convenient to use, the type of the motor 16 is XD-60KTYZ, and positive and negative rotation is convenient to adjust, so that the whole process of using the sample collection device for marine environment monitoring with the storage function is achieved.

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

Claims

1. The utility model provides a sample collection system for marine environmental monitoring with store function, includes support frame (1), its characterized in that: the middle part fixed mounting of support frame (1) has water pump (2), and the lower extreme intercommunication of water pump (2) has inlet tube (3), the below of inlet tube (3) is provided with sampling tube (4), and the left and right sides of sampling tube (4) fixedly connected with threaded sleeve (5) and fixed block (6) respectively, the inside through connection of threaded sleeve (5) has threaded rod (7), and the upper end of threaded rod (7) runs through the inside of support frame (1), the inside through connection of fixed block (6) has slide bar (8), and the upper end welding of slide bar (8) is at the lower terminal surface of support frame (1), the upper end of threaded rod (7) is connected with the output of motor (16) through transmission (15), and motor (16) install the left end at support frame (1), the upper end intercommunication of water pump (2) has outlet pipe (9), and the right-hand member downside of outlet pipe (9) is provided with deposits case (10), the inside block of depositing case (10) is connected with deposits pipe (11), and the right side of depositing case (10) is connected with gear (12), the inside through connection of gear (12) has crank (13), and welded connection has dwang (14) on crank (13), the lower extreme of dwang (14) passes through spout (18) sliding connection on support frame (1), and has seted up on spout (18) recess (17).

2. The sample collection device with storage function for marine environmental monitoring according to claim 1, wherein: the connection mode of threaded sleeve (5) and threaded rod (7) is threaded connection, and threaded sleeve (5) and sampling tube (4) are welding integrated structure to sampling tube (4) pass through threaded rod (7) and constitute elevation structure on slide bar (8).

3. The sample collection device with storage function for marine environmental monitoring according to claim 1, wherein: the number of the storage pipes (11) is 6, the storage pipes are arranged in the storage box (10) at equal angles, the outer surface of the lower end of the storage box (10) is of a saw-toothed structure, the storage box (10) is connected with the gear (12) in a meshing mode, and the number of the tooth blocks of the storage box (10) is equal to that of the gear (12).

4. The sample collection device with storage function for marine environmental monitoring according to claim 1, wherein: the crank (13) is of a sliding structure on the support frame (1) through the rotating rod (14), 6 grooves (17) in the support frame (1) are arranged at equal angles, and the grooves (17) are connected with the rotating rod (14) in a clamping mode.

5. The sample collection device with storage function for marine environmental monitoring according to claim 1, wherein: the rotating rod (14) and the sliding block (19) form a telescopic structure, and the lower surface of the sliding block (19) is of a hemispherical structure.

6. The sample collection device with storage function for marine environmental monitoring according to claim 1, wherein: the transmission device (15) comprises a rotating wheel (1501) and a belt (1502), the belt (1502) is attached to the outer surface of the rotating wheel (1501), the rotating wheel (1501) and the belt (1502) form a transmission structure, and the rotating wheels (1501) on the left side and the right side are respectively connected with the output end of a motor (16) and the upper end of a threaded rod (7).