CN211085791U - Resource remote sensing device with acquisition structure for water resource analysis - Google Patents

Abstract

The utility model discloses a resource remote sensing device for water resource analysis with collection structure, including main body cover, first solenoid valve, miniature suction pump, circuit board, battery, second solenoid valve and shift knob, main body cover's bottom welded fastening has the supporting legs, main body cover's the fixed kicking block that has installed in both sides around, main body cover's bottom intermediate position fixed intercommunication has first solenoid valve, and the bottom cover of first solenoid valve is equipped with the filter mantle. The utility model discloses a set up the sampling bottle and install in the top in equipment compartment, and install the second solenoid valve in the top of sampling bottle, can effectual control water resource get into the inside collection of sampling bottle, be convenient for take a sample to the water, simultaneously, set up the cardboard and press from both sides tight sampling bottle under the support of loop bar, and the loop bar supports through the second spring for the sampling bottle of the fixed different specifications of cardboard centre gripping.

Description

Resource remote sensing device with acquisition structure for water resource analysis

Technical Field

The utility model relates to a water resource analysis equipment technical field specifically is a resource remote sensing device for water resource analysis with collection structure.

Background

Along with people's environmental awareness deepens gradually, attach more and more importance to the control of environmental resource, and the water resource is as the source of life, it is more important to prevent that the water resource from polluting, in order to prevent that the water resource from being polluted, need carry out the analysis by detection to the water resource, for realizing convenient operation, current analysis detection device uses the remote sensing to carry out the water analysis more, convenient and fast, however, current remote sensing device for the water analysis is many directly to float on the water, can not take a sample to the water, be not convenient for preserve the water resource sample of analysis, and remote sensing device floats on the water surface, only can carry out the analysis to the water top layer, make the analysis comprehensive inadequately, therefore, for solving above-mentioned problem, provide a resource remote sensing device for the water resource analysis with collection structure.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a resource remote sensing device for water resource analysis with gather structure to solve present remote sensing device for water resource analysis who proposes in the above-mentioned background art and float at the water performance direct detection water more, can not take a sample to save, and remote sensing device only can carry out the single-point detection, the incomplete problem of testing result.

In order to achieve the above object, the utility model provides a following technical scheme: a resource remote sensing device with a collection structure for water resource analysis comprises a main body shell, a first electromagnetic valve, a miniature water suction pump, a circuit board, a storage battery, a second electromagnetic valve and a switch button, wherein the bottom of the main body shell is welded and fixed with supporting legs, floating blocks are fixedly arranged on the front side and the rear side of the main body shell, the bottom middle position of the main body shell is fixedly communicated with the first electromagnetic valve, a filter cover is sleeved at the bottom of the first electromagnetic valve, a telescopic rod is welded at the inner middle position of the main body shell, a first spring is sleeved on the outer side of the telescopic rod, a hinged block is welded at the upper end of the telescopic rod, a rotating shaft is inserted at the middle position of the hinged block, a buffering blade is fixedly sleeved on the outer side of the rotating shaft, an equipment bin is welded and fixed above the main body shell, the miniature water suction pump is fixedly arranged on the right side, the delivery port intercommunication of miniature suction pump top has the water outlet end, the fixed circuit board of having installed in bottom in equipment compartment, and the fixed battery of having installed in top in circuit board, it has the isolation apron to articulate on the inner wall in equipment compartment, main body cover's the top left and right sides symmetry respectively is fixed with the sleeve, and telescopic inside inserts and is equipped with the loop bar, telescopic inside is inlayed and is had the second spring, the other end welded fastening of loop bar has the cardboard, the top in equipment compartment is inserted and is equipped with the sampling bottle, and the top cover of sampling bottle is equipped with the second solenoid valve, main body cover's top right side fixed mounting has shift knob.

Preferably, the inside of main part shell evenly welds there is the division board, evenly set up the screw thread on the below outer wall of first solenoid valve, evenly set up the screw thread on the top inner wall of filter mantle, the filter mantle passes through the screw thread and designs for threaded connection structure with first solenoid valve, the surface of filter mantle has evenly seted up the filtration pore, the filter mantle is convex design.

Preferably, the bottom at main body cover is fixed to the one end of first spring, the other end fixed support of first spring is on articulated piece, articulated piece is elastic telescopic structure through first spring and main body cover design, the through-hole has been seted up on the inner wall of articulated piece, and the inner wall of through-hole is the design of coarse form, the pivot is inserted and is established in the through-hole of seting up on articulated piece, buffering blade is revolution mechanic through pivot and articulated piece design, both ends outer wall is the design of coarse form about the pivot.

Preferably, a clamping groove is formed in the inner wall of the equipment bin, the clamping groove is clamped inside the rubber sealing ring, threads are formed in the inner wall of the equipment bin and located above the clamping groove in the inner wall of the equipment bin, threads are formed in the outer wall of the isolation cover plate, and the isolation cover plate is of a thread rotating structure through threaded engagement and equipment bin design.

Preferably, the two ends of the second spring are respectively and elastically supported at one end of the sleeve and one end of the loop bar, the loop bar is designed to be an elastic telescopic structure through the second spring and the hinging block, through grooves are respectively formed in the outer walls of the left side and the right side of the equipment bin, the clamping plate is inserted into the through grooves formed in the equipment bin, and the clamping plate and the equipment bin are designed to be sliding structures.

Preferably, the outer wall of the sampling bottle is provided with a clamping block, the clamping block is in a circular arc shape, the outer wall of the upper end of the sampling bottle is uniformly provided with threads, the inner wall of the lower end of the second electromagnetic valve is uniformly provided with threads, and the second electromagnetic valve is in a threaded connection structure with the sampling bottle through threads.

Preferably, the input end of the switch button is electrically connected with the output end of the storage battery through a wire, the output end of the switch button is electrically connected with the input end of the circuit board through a wire, and the output end of the circuit board is electrically connected with the first electromagnetic valve, the miniature water pump and the second electromagnetic valve through wires.

Compared with the prior art, the beneficial effects of the utility model are that:

1. install the top in the equipment compartment through setting up the sampling bottle, and install the second solenoid valve in the top of sampling bottle, through opening and being closed of second solenoid valve, can effectual control water resource get into the inside collection of sampling bottle, be convenient for take a sample to the water, and simultaneously, it presss from both sides tight sampling bottle to set up the cardboard under the support of loop bar, and the loop bar supports through the second spring, make the sampling bottle of the fixed different specifications of cardboard centre gripping, be convenient for carry out the ration sample through the sampling bottle of choosing different capacities, and convenient for operation.

2. Install both sides around main body cover respectively through setting up two sets of floating blocks for the device can float on the water surface, sets up first solenoid valve and miniature suction pump and cooperates, makes the device can change buoyancy size through the drainage of intaking, thereby reaches to control its degree of depth inside the water, is convenient for carry out sample analysis to the water of different altitude positions, and convenient and fast has improved the device's detection comprehensiveness greatly.

Drawings

FIG. 1 is a schematic sectional view of the front view of the structure of the present invention;

FIG. 2 is a schematic front view of the structure of the present invention;

FIG. 3 is a schematic top view of the structure of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 1 according to the present invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 1 according to the present invention;

fig. 6 is a schematic diagram of the circuit flow control of the present invention.

In the figure: 1. a main body housing; 2. supporting legs; 3. floating blocks; 4. a first solenoid valve; 5. a filter housing; 6. a telescopic rod; 7. a first spring; 8. a hinged block; 9. a rotating shaft; 10. a buffer blade; 11. an equipment bin; 12. a micro water pump; 13. a water pumping end; 14. a water outlet end; 15. a circuit board; 16. a storage battery; 17. an isolation cover plate; 18. a sleeve; 19. a loop bar; 20. a second spring; 21. clamping a plate; 22. a sampling bottle; 23. a second solenoid valve; 24. and a button is switched on and off.

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. 1-6, the present invention provides an embodiment:

a resource remote sensing device with a collection structure for water resource analysis comprises a main body shell 1, a first electromagnetic valve 4, a miniature water pump 12, a circuit board 15, a storage battery 16, a second electromagnetic valve 23 and a switch button 24, wherein the bottom of the main body shell 1 is fixedly welded with a supporting leg 2, the supporting leg 2 is used for supporting to prevent the bottom of the device from contacting with the water bottom when the device sinks to cause non-floating, floating blocks 3 are fixedly arranged on the front side and the rear side of the main body shell 1, the floating blocks 3 are hollow, gas can be filled according to actual conditions, the buoyancy of the device is increased, the device is enabled to normally float on the surface of a water body, the first electromagnetic valve 4 is fixedly communicated with the middle position of the bottom of the main body shell 1, a filter cover 5 is sleeved at the bottom of the first electromagnetic valve 4, partition plates are uniformly welded in the main body shell 1, when the water body enters the main, the existence of the partition board can effectively retard the flow of water, prevent the device from sinking unstably due to overlarge water flow, effectively improve the stability of the device, threads are uniformly arranged on the outer wall of the lower part of the first electromagnetic valve 4, threads are uniformly arranged on the inner wall of the upper part of the filter housing 5, the filter housing 5 and the first electromagnetic valve 4 are designed into a threaded connection structure through threads, filter holes are uniformly arranged on the surface of the filter housing 5, the filter housing 5 is in a circular arc-shaped design, the type of the first electromagnetic valve 4 is 2W025-06, the quantity of water entering the main body shell 1 is controlled through the opening and closing of the first electromagnetic valve 4, so that the device can increase the weight, the device is controlled to sink to a proper position in water, the use is convenient, the device can conveniently sample water resources of water bodies with different heights, and the filter housing 5 is arranged below the first electromagnetic valve 4 for filtering, inside can effectually block aquatic pasture and water impurity through first solenoid valve 4 entering main body cover 1, set up filter mantle 5 and be arc, probability that the pasture and water that can significantly reduce hung on 5 surfaces of filter mantle for the device work is more stable safety.

The middle position in the main body shell 1 is welded with a telescopic rod 6, the outer side of the telescopic rod 6 is sleeved with a first spring 7, the upper end of the telescopic rod 6 is welded with a hinged block 8, a rotating shaft 9 is inserted in the middle position of the hinged block 8, the outer side of the rotating shaft 9 is fixedly sleeved with a buffer blade 10, one end of the first spring 7 is fixed at the bottom of the main body shell 1, the other end of the first spring 7 is fixedly supported on the hinged block 8, the hinged block 8 and the main body shell 1 are designed into an elastic telescopic structure through the first spring 7, the inner wall of the hinged block 8 is provided with a through hole, the inner wall of the through hole is in a rough design, the rotating shaft 9 is inserted in the through hole formed in the hinged block 8, the buffer blade 10 and the hinged block 8 are designed into a rotating structure through the rotating shaft 9, the outer walls at the left end and the right end of the rotating shaft 9 are, can strike buffering blade 10 when rivers enter, cause buffering blade 10 to rotate, make rivers impact force slow through buffering blade 10's rotation, the effectual device that leads to because rivers impact force is too big descends unstably, set up the first spring 7 of 6 cooperations of telescopic link, utilize the flexible of telescopic link 6 and the elastic deformation of first spring 7, absorb the impact force and weaken, set up simultaneously and rotate for the friction between pivot 9 and the articulated piece 8, both mutually support, buffering blade 10 has been strengthened greatly and has weakened the effect to the buffering of rivers impact.

An equipment bin 11 is fixedly welded above a main body shell 1, a miniature water suction pump 12 is fixedly installed on the right side of the equipment bin 11, a water inlet below the miniature water suction pump 12 is communicated with two groups of water suction ends 13, a water outlet above the miniature water suction pump 12 is communicated with a water outlet end 14, the miniature water suction pump 12 is of an ANHB-1 model, when the miniature water suction pump 12 is started, water in the main body shell 1 can be led out of the main body shell 1 from the water outlet end 14 through the water suction ends 13, so that the quality of the device is reduced, the device floats to the surface of the water body, the operation is convenient and fast, the two groups of water suction ends 13 are respectively placed at the bottoms of the left side and the right side of the main body shell 1, the water body in the device is discharged and balanced, the floating stability of the device is effectively improved, a circuit board 15 is fixedly installed at the bottom of the, the circuit board 15 comprises a single chip microcomputer and a wireless transceiver module, the model of the single chip microcomputer is STM32, the model of the wireless transceiver module is HC-12, the wireless transceiver module can receive an instruction signal transmitted from the outside and transmit the signal to the single chip microcomputer, the single chip microcomputer controls the operation of the device after receiving the signal, an isolation cover plate 17 is hinged on the inner wall of the equipment bin 11, a clamping groove is formed in the inner wall of the equipment bin 11, a rubber sealing ring is clamped in the clamping groove, a thread is formed in the inner wall of the equipment bin 11 and is positioned above the clamping groove in the inner wall of the equipment bin 11, a thread is formed in the outer wall of the isolation cover plate 17, the isolation cover plate 17 is in a thread rotating structure through the meshing of the threads with the equipment bin 11, the isolation cover plate 17 is installed in the equipment bin 11 through the thread connection mode, the isolation cover plate 17 is convenient to open, and, set up the pressfitting of rubber seal ring in the below of keeping apart apron 17 simultaneously for keep apart and be connected closely between apron 17 and the equipment storehouse 11, inside the effectual water penetration that prevents leaded to the device to damage, prevented into water, improved the device's job stabilization nature greatly.

Sleeves 18 are symmetrically fixed on the left side and the right side above a main body shell 1 respectively, a sleeve rod 19 is inserted into the sleeve 18, a second spring 20 is inlaid in the sleeve 18, clamping plates 21 are fixedly welded on the other end of the sleeve rod 19, a sampling bottle 22 is inserted above an equipment bin 11, two ends of the second spring 20 are elastically supported in the sleeve 18 and one end of the sleeve rod 19 respectively, the sleeve rod 19 and a hinge block 8 are designed into an elastic telescopic structure through the second spring 20, through grooves are formed in the outer walls of the left side and the right side of the equipment bin 11 respectively, the clamping plates 21 are inserted into the through grooves formed in the equipment bin 11, the clamping plates 21 and the equipment bin 11 are designed into a sliding structure, when the sampling bottle clamping device is used, under the elastic support of the second spring 20, the sleeve rod 19 pushes the clamping plates 21, so that the two groups of clamping plates 21 are mutually matched to clamp sampling bottles 22 of different specifications and capacities, and the sampling bottles 22 of different specifications and capacities, the sampling bottles 22 of different specifications can be selected conveniently according to actual conditions to sample water bodies of different volumes, so that the use flexibility of the device is greatly improved, and the operation is convenient and fast.

Sampling bottle 22's top cover is equipped with second solenoid valve 23, the fixture block has been seted up on sampling bottle 22's the outer wall, and the fixture block is convex design, cooperate with cardboard 21 through the fixture block, make sampling bottle 22 fixed more firm, evenly set up screw thread on sampling bottle 22's the upper end outer wall, evenly set up screw thread on second solenoid valve 23's the lower extreme inner wall, second solenoid valve 23 passes through the screw thread and designs for threaded connection structure with sampling bottle 22, second solenoid valve 23's model is 2W025-06, through opening and closure of second solenoid valve 23, can control water resource and get into inside sampling bottle 22, take a sample, the simple operation, it is threaded connection with sampling bottle 22 to set up second solenoid valve 23, make sampling bottle 22 and second solenoid valve 23 can separate, be convenient for change sampling bottle 22 of different specifications and take a sample, and is nimble convenient.

Main body cover 1's top right side fixed mounting has shift knob 24, shift knob 24's input passes through the wire and is connected for the electricity with battery 16's output design, shift knob 24's output passes through the wire and is connected for the electricity with circuit board 15's input design, circuit board 15's output passes through wire and first solenoid valve 4, miniature suction pump 12 and second solenoid valve 23 design are connected for the electricity, send out the instruction through external remote control unit, the device 15 inside wireless transceiver module of circuit board receives the instruction signal after-transmission and gives the singlechip, operating condition through the single chip microcomputer control device, convenient and fast.

The working principle is as follows: during operation, a worker selects a sampling bottle 22 with a proper volume according to the sample volume to be sampled, the sampling bottle 22 is inserted into the equipment bin 11 through downward pressing, the two groups of clamping plates 21 are clamped on two sides of the sampling bottle 22 under the support of the sleeve rod 19, the clamping blocks outside the sampling bottle 22 are matched to fix the sampling bottle 22 firmly, and then the worker rotates the second electromagnetic valve 23 to install the second electromagnetic valve 23 above the sampling bottle 22 under the meshing action of threads;

during operation, a worker places the device on a water body to be detected, then sends an instruction to the interior of the device through an external remote control device, a wireless transceiver module in the circuit board 15 receives the instruction, the instruction signal is transmitted to a single chip microcomputer on the circuit board 15, the first electromagnetic valve 4 is controlled to be opened through the single chip microcomputer, the water body enters the interior of the main body shell 1 through the first electromagnetic valve 4, the weight of the device is controlled by introducing water into the interior of the main body shell 1, the device sinks in the water, the worker controls the opening and closing of the first electromagnetic valve 4 through remote control, the water inflow in the main body shell 1 is controlled, and the device sinks to a proper position;

when the device sinks to a proper sampling height, a worker sends an instruction through an external remote control device, a structural instruction of a wireless transceiving module on the circuit board 15 is transmitted to the single chip microcomputer, the single chip microcomputer controls the second electromagnetic valve 23 to be opened according to the instruction, so that water resources enter the sampling bottle 22, and then the second electromagnetic valve 23 is controlled to be closed;

after the sample is finished, when the device needs to float, the staff sends out an instruction through remote control, and the singlechip on the circuit board 15 controls the micro water suction pump 12 to pump out the water inside the main body shell 1 according to the instruction, so that the quality of the device is reduced, and the device floats to the surface of the water body.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a resource remote sensing device for water resource analysis with collection structure, includes main body cover (1), first solenoid valve (4), miniature suction pump (12), circuit board (15), battery (16), second solenoid valve (23) and shift knob (24), its characterized in that: the bottom welded fastening of main body cover (1) has supporting legs (2), both sides are fixed to have installed floating block (3) around main body cover (1), the fixed intercommunication of the bottom intermediate position of main body cover (1) has first solenoid valve (4), and the bottom cover of first solenoid valve (4) is equipped with filter mantle (5), the inside intermediate position welding of main body cover (1) has telescopic link (6), and the outside cover of telescopic link (6) is equipped with first spring (7), the upper end welding of telescopic link (6) has articulated piece (8), and the intermediate position of articulated piece (8) is inserted and is equipped with pivot (9), the outside fixed cover of pivot (9) is equipped with buffering blade (10), the top welded fastening of main body cover (1) has equipment storehouse (11), and equipment storehouse (11) right side fixed mounting has miniature suction pump (12), a water inlet at the lower part of the miniature water pump (12) is communicated with two groups of water pumping ends (13), a water outlet above the micro water pump (12) is communicated with a water outlet end (14), the bottom of the equipment bin (11) is fixedly provided with a circuit board (15), and a storage battery (16) is fixedly arranged above the circuit board (15), an isolation cover plate (17) is hinged on the inner wall of the equipment bin (11), sleeves (18) are symmetrically fixed on the left side and the right side above the main body shell (1) respectively, a loop bar (19) is inserted in the sleeve (18), a second spring (20) is embedded in the sleeve (18), the other end of the loop bar (19) is fixedly welded with a clamping plate (21), a sampling bottle (22) is inserted above the equipment bin (11), and the top cover of sampling bottle (22) is equipped with second solenoid valve (23), the top right side fixed mounting of main part shell (1) has shift knob (24).

2. The remote resource sensing device for water resource analysis having a collection structure according to claim 1, wherein: the novel electromagnetic valve is characterized in that an isolation plate is uniformly welded inside the main body shell (1), threads are uniformly arranged on the outer wall of the lower portion of the first electromagnetic valve (4), threads are uniformly arranged on the inner wall of the upper portion of the filter mantle (5), the filter mantle (5) is designed into a threaded connection structure through threads and the first electromagnetic valve (4), filter holes are uniformly formed in the surface of the filter mantle (5), and the filter mantle (5) is designed into a circular arc shape.

3. The remote resource sensing device for water resource analysis having a collection structure according to claim 1, wherein: the bottom at main body cover (1) is fixed to the one end of first spring (7), the other end fixed support of first spring (7) is on articulated piece (8), articulated piece (8) are designed for elastic telescopic structure through first spring (7) and main body cover (1), the through-hole has been seted up on the inner wall of articulated piece (8), and the inner wall of through-hole is the design of coarse form, pivot (9) are inserted and are established in the through-hole seted up on articulated piece (8), buffering blade (10) are rotating-structure through pivot (9) and articulated piece (8) design, both ends outer wall is the design of coarse form about pivot (9).

4. The remote resource sensing device for water resource analysis having a collection structure according to claim 1, wherein: the inner wall of the equipment bin (11) is provided with a clamping groove, the clamping groove is clamped inside the rubber sealing ring, the inner wall of the equipment bin (11) is provided with a thread, the thread is located above the clamping groove in the inner wall of the equipment bin (11), the outer wall of the isolation cover plate (17) is provided with a thread, and the isolation cover plate (17) is designed into a thread rotating structure through threaded engagement and the equipment bin (11).

5. The remote resource sensing device for water resource analysis having a collection structure according to claim 1, wherein: the both ends of second spring (20) elastic support respectively in the inside of sleeve (18) and the one end of loop bar (19), loop bar (19) are through second spring (20) and articulated piece (8) design for elastic telescopic structure, logical groove has been seted up respectively on the left and right sides outer wall of equipment storehouse (11), cardboard (21) are inserted and are established the logical inslot of seting up on equipment storehouse (11), cardboard (21) and equipment storehouse (11) design are sliding construction.

6. The remote resource sensing device for water resource analysis having a collection structure according to claim 1, wherein: the outer wall of the sampling bottle (22) is provided with a clamping block, the clamping block is in a circular arc shape, the outer wall of the upper end of the sampling bottle (22) is uniformly provided with threads, the inner wall of the lower end of the second electromagnetic valve (23) is uniformly provided with threads, and the second electromagnetic valve (23) is in a threaded connection structure with the sampling bottle (22) through threads.

7. The remote resource sensing device for water resource analysis having a collection structure according to claim 1, wherein: the input end of the switch button (24) is electrically connected with the output end of the storage battery (16) through a wire, the output end of the switch button (24) is electrically connected with the input end of the circuit board (15) through a wire, and the output end of the circuit board (15) is electrically connected with the first electromagnetic valve (4), the miniature water pump (12) and the second electromagnetic valve (23) through wires.

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