CN113777085B

CN113777085B - Floating algae concentration monitor based on fluorescence sensing technology

Info

Publication number: CN113777085B
Application number: CN202111075349.8A
Authority: CN
Inventors: 张磊; 王远; 刘强; 那雨庭; 郑一博
Original assignee: Hebei GEO University
Current assignee: Hebei GEO University
Priority date: 2021-09-14
Filing date: 2021-09-14
Publication date: 2024-06-04
Anticipated expiration: 2041-09-14
Also published as: CN113777085A; WO2023040310A1

Abstract

The invention relates to the field of fluorescence sensing concentration monitoring, in particular to a floating algae concentration monitor based on a fluorescence sensing technology, which comprises a monitoring processor, wherein a fixed structure is arranged on the outer side of the monitoring processor, the fixed structure comprises a bottom plate, a vertical frame is fixedly connected to the rear side of the top end of the bottom plate, a pressing plate is slidably connected to the top end of the monitoring processor, a first threaded shaft is fixedly connected to the rear end of the pressing plate, and the first threaded shaft is slidably connected with the vertical frame.

Description

Floating algae concentration monitor based on fluorescence sensing technology

Technical Field

The invention relates to the field of fluorescence sensing concentration monitoring, in particular to a floating algae concentration monitor based on a fluorescence sensing technology.

Background

The fluorescent sensor is a novel ultraviolet light sensor which can detect substances emitting ultraviolet light, such as grease, glue, labels, wood, clothes, rubber, oil painting, fluorescent ink, fluorescent chalk and the like, the UVX can record the production process more reliably, the reliability of the fluorescent sensor is improved by many times compared with that of a common visual system, and the ultraviolet light detection device with more advanced performance can be obtained only by expenditure of one tenth of that of the common visual system.

The monitoring processor that current fluorescence sensing technique used is mostly single line structure connection, processing function is single, when handling in facing a large amount of complicated planktonic algae environment, the treatment rate is slower, and monitoring accuracy is relatively poor, and the processor structure is directly placed near ground, because near environment is comparatively moist, cause the corruption to the surface of treater very easily, reduce the life of treater, and current processor connecting wire direct exposure is outside, do not possess protective structure, make junction corrosion, be unfavorable for pulling out the plug to the transmission line, monitor structure is generally directly throwing into the monitoring area, also directly placed outside when taking out, can not shrink the protection in a flexible way, be unfavorable for the monitor to open or shrink.

Disclosure of Invention

The invention aims to provide a planktonic algae concentration monitor based on a fluorescence sensing technology so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides a planktonic algae concentration monitor based on fluorescence sensing technique, includes the monitor processor, the outside of monitor processor is equipped with fixed knot constructs, fixed knot constructs including the bottom plate, the top rear side fixedly connected with of bottom plate erects the frame, the top sliding connection of monitor processor has the clamp plate, the rear end fixedly connected with first screw thread axle of clamp plate, and first screw thread axle and erects frame sliding connection, the outside screwed connection of first screw thread axle has first nut, and first nut and erects frame sliding connection, the front end fixedly connected with signal receiver of monitor processor, the rear end fixedly connected with first transmission line of monitor processor, the other end fixedly connected with relay processor of first transmission line, the top fixedly connected with second transmission line of relay processor, the other end fixedly connected with notebook of second transmission line, the left end fixedly connected with third transmission line of monitor processor.

Preferably, the front end sliding connection who erects the frame has the support frame, the rear end fixedly connected with second screw thread axle of support frame, and second screw thread axle and erects frame sliding connection, the outside screwed connection of second screw thread axle has the second nut, and second nut and erects frame sliding connection, the inboard of support frame is equipped with the third screw thread axle, the third screw thread axle runs through the support frame, and third screw thread axle and support frame sliding connection, the top fixedly connected with foot rest of third screw thread axle, and foot rest and monitor processor fixed connection, the outside screwed connection of third screw thread axle has the third nut, and third nut and support frame sliding connection.

Preferably, the support frame is made of a plate made of steel plates, and a rubber layer is arranged at the bottom end of the pressing plate.

Preferably, the other end fixedly connected with of third transmission line draws the processing architecture, draw the processing architecture including extracting the treater, the front end sliding connection who draws the treater has the closing cap, the front end fixedly connected with fourth screw shaft of closing cap, the front end sliding connection of closing cap has the fixed plate, and fixed plate and fourth screw shaft sliding connection, the outside screw connection of fourth screw shaft has the fastening head, the outside fixedly connected with closure cap of fixed plate, and closure cap and extraction treater sliding connection.

Preferably, the bottom of the closed cover is arranged in an arc shape, and the left end and the right end of the closed cover are both provided with open slots.

Preferably, the two ends of the first transmission line and the second transmission line have the same structure, and three interfaces are respectively arranged at the rear end of the monitoring processor and the right rear end of the top end of the relay processor.

Preferably, the outside fixedly connected with fourth transmission line of processing architecture draws, the bottom fixedly connected with monitoring structure of fourth transmission line, monitoring structure is including the monitor, the inboard fixedly connected with electric telescopic handle in top of monitor, electric telescopic handle's bottom fixedly connected with inner core processor, the outside fixedly connected with filter mantle of inner core processor, and filter mantle and monitor sliding connection, the bottom fixedly connected with bottom of filter mantle, and bottom and monitor sliding connection.

Preferably, the bottom of monitor has seted up the seal groove, the top fixedly connected with sealing ring of bottom, and sealing ring and monitor sliding connection.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, when a large number of floating algae environments need to be monitored through the arranged monitoring processor, the first transmission line, the relay processor and the second transmission line, a worker connects the first transmission line between the monitoring processor and the relay processor, the second transmission line is connected between the relay processor and the notebook computer, and the monitoring processor is matched with the relay processor to analyze the signals transmitted by monitoring, so that the concentration analysis rate of the algae environments is enhanced, and the monitoring precision is improved;

2. According to the invention, through the arranged bottom plate, the vertical frame, the pressing plate and the supporting frame, a worker places the monitoring processor above the supporting frame, slides the supporting frame on the vertical frame according to the requirements, increases or decreases the height of the monitoring processor, rotates the second nut, positions the supporting frame, slides the pressing plate to the top end surface of the monitoring processor, rotates the first nut, and is tightly positioned outside the vertical frame through the first threaded shaft, so that the monitoring processor is far away from the ground environment, corrosion of the monitoring processor is prevented, and the service life of the monitoring processor is prolonged;

3. According to the invention, the third transmission line and the fourth transmission line are connected to the outer side of the extraction processor through the arranged sealing cover, the fixing plate, the fourth threaded shaft and the fastening head, and the sealing cover is clamped on the outer side of the extraction processor, so that the third transmission line and the fourth transmission line are protected on the inner side of the sealing cover, the fastening head is used for fixing the outer side of the fourth threaded shaft, the fixing plate is pushed to be attached to the front end of the sealing cover to finish positioning, corrosion at the joint is avoided, and the extraction and the insertion are inconvenient;

4. According to the invention, through the arranged monitor, the electric telescopic rod, the inner core processor and the filter cover, a worker throws the monitor and the inner core processor into a monitoring area, and the electric telescopic rod is controlled to push the inner core processor on the inner side of the monitor to extend out of the monitor through the signal transmission of the extraction processor, and the inner core processor monitors the concentration of floating algae through the filter cover, and when the filter cover is not used, the inner core processor is directly taken into the monitor, so that the opening or the contraction of the monitor is facilitated.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the mounting structure of the vertical frame of the present invention;

FIG. 3 is a schematic view of the mounting structure of FIG. 1 at A in accordance with the present invention;

FIG. 4 is a schematic view of the mounting structure of the enclosure of the present invention;

fig. 5 is a schematic view of the mounting structure of the filter housing of the present invention.

In the figure: 1-monitor processor, 2-fixed structure, 201-base plate, 202-vertical frame, 203-platen, 204-first threaded shaft, 205-first nut, 206-support frame, 207-second threaded shaft, 208-second nut, 209-third threaded shaft, 210-third nut, 211-foot mount, 3-signal receiver, 4-first transmission line, 5-relay processor, 6-extraction processing structure, 601-extraction processor, 602-closure cap, 603-fourth threaded shaft, 604-fastening head, 605-fixed plate, 606-closure cap, 7-monitor structure, 701-monitor, 702-sealing groove, 703-motor telescoping rod, 704-core processor, 705-filter cap, 706-bottom cap, 707-sealing ring, 8-second transmission line, 9-notebook, 10-third transmission line, 11-fourth transmission line.

Detailed Description

Example 1:

Referring to fig. 1,2, 3, 4 and 5, the present invention provides a technical solution:

The utility model provides a planktonic algae concentration monitor based on fluorescence sensing technique, including monitor processor 1, monitor processor 1's outside is equipped with fixed knot constructs 2, fixed knot constructs 2 including bottom plate 201, monitor processor 1's top rear side fixedly connected with erects frame 202, monitor processor 1's top sliding connection has clamp plate 203, clamp plate 203's rear end fixedly connected with first screw thread axle 204, and first screw thread axle 204 and erects frame 202 sliding connection, first screw thread axle 204's outside screwed connection has first nut 205, and first nut 205 and erects frame 202 sliding connection, be favorable to rotating first nut 205 and rotate in first screw thread axle 204's outside, press from both sides the outside of tight location at erects frame 202, monitor processor 1's front end fixedly connected with signal receiver 3, monitor processor 1's rear end fixedly connected with first transmission line 4, first transmission line 4's other end fixedly connected with relay processor 5, relay processor 5's top fixedly connected with second transmission line 8, second transmission line 8's other end fixedly connected with notebook 9, monitor processor 1's left end fixedly connected with third transmission line 10.

The front end of the vertical frame 202 is connected with a supporting frame 206 in a sliding way, the rear end of the supporting frame 206 is fixedly connected with a second threaded shaft 207, the second threaded shaft 207 is connected with the vertical frame 202 in a sliding way, the outer side of the second threaded shaft 207 is connected with a second nut 208 in a screwed way, the second nut 208 is connected with the vertical frame 202 in a sliding way, the inner side of the supporting frame 206 is provided with a third threaded shaft 209, the third threaded shaft 209 penetrates through the supporting frame 206, the third threaded shaft 209 is connected with the supporting frame 206 in a sliding way, the top end of the third threaded shaft 209 is fixedly connected with a foot seat 211, the foot seat 211 is fixedly connected with the monitoring processor 1, the outer side of the third threaded shaft 209 is spirally connected with a third nut 210, the third nut 210 is in sliding connection with the supporting frame 206, so that the supporting frame 206 at the front end of the vertical frame 202 can be conveniently moved to slide up and down, the height of the monitoring processor 1 is adjusted, the monitoring processor is rotated on the second threaded shaft 207 through the second nut 208 and is attached to the rear end of the vertical frame 202 for positioning, and the bottom end base 211 of the monitoring processor 1 is inserted into the supporting frame 206 through the third threaded shaft 209 and is positioned by using the third nut 210; the support frame 206 is made of a plate made of a steel plate material, a rubber layer is arranged at the bottom end of the pressing plate 203, so that the support frame 206 made of the steel plate material can position the monitoring processor 1 more stably, and the rubber layer at the bottom end of the pressing plate 203 is prevented from crushing the monitoring processor 1; the other end of the third transmission line 10 is fixedly connected with an extraction processing structure 6, the extraction processing structure 6 comprises an extraction processor 601, the front end of the extraction processor 601 is slidably connected with a sealing cover 602, the front end of the sealing cover 602 is fixedly connected with a fourth threaded shaft 603, the front end of the sealing cover 602 is slidably connected with a fixing plate 605, the fixing plate 605 is slidably connected with the fourth threaded shaft 603, the outer side of the fourth threaded shaft 603 is spirally connected with a fastening head 604, the outer side of the fixing plate 605 is fixedly connected with a sealing cover 606, the sealing cover 606 is slidably connected with the extraction processor 601, the sealing cover 602 is convenient to pass through the fourth threaded shaft 603 through the fixing plate 605, rotating the fastening head 604 positions the closure 606; the bottom end of the closed cover 606 is arranged in an arc shape, the left end and the right end of the closed cover 606 are provided with open slots, the closed cover 606 which is arranged in an arc shape is convenient to be attached to the extraction processor 601 for closing, and the open slots at the left end and the right end of the extraction processor 601 can flow out of a connecting line space; the two ends of the first transmission line 4 and the second transmission line 8 have the same structure, the rear end of the monitoring processor 1 and the right rear end of the top end of the relay processor 5 are respectively provided with three interfaces, so that the first transmission line 4 and the second transmission line 8 can be conveniently pulled out, the monitoring processor 1, the relay processor 5 and the notebook 9 are connected, and the relay processor 5 is increased or decreased; the outer side of the extraction processing structure 6 is fixedly connected with a fourth transmission line 11, the bottom end of the fourth transmission line 11 is fixedly connected with a monitoring structure 7, the monitoring structure 7 comprises a monitor 701, the inner side of the top end of the monitor 701 is fixedly connected with an electric telescopic rod 703, the bottom end of the electric telescopic rod 703 is fixedly connected with an inner core processor 704, the outer side of the inner core processor 704 is fixedly connected with a filter cover 705, the filter cover 705 is in sliding connection with the monitor 701, the bottom end of the filter cover 705 is fixedly connected with a bottom cover 706, the bottom cover 706 is in sliding connection with the monitor 701, and the electric telescopic rod 703 on the inner side of the monitor 701 is convenient for pushing the inner core processor 704 to stretch out or draw in; the bottom of monitor 701 has seted up seal groove 702, and the top fixedly connected with sealing ring 707 of bottom 706, and sealing ring 707 and monitor 701 sliding connection, the sealing ring 707 of bottom 706 top is convenient for card go into seal groove 702's inboard and strengthen the seal.

The working flow is as follows: the electric appliance of the device is an external power supply, a worker places the monitoring processor 1 on a supporting frame 206 on a vertical frame 202 in a fixed structure 2, a third threaded shaft 209 below a foot seat 211 at the bottom end of the monitoring processor 1 is inserted into the supporting frame 206, a third nut 210 is rotated to be attached to the bottom end of the supporting frame 206, the monitoring processor 1 is fixed, the sliding supporting frame 206 is positioned in a sliding groove at the central position of the vertical frame 202 through a second threaded shaft 207 to move upwards or downwards, a second nut 208 is rotated to be attached to the rear side of the vertical frame 202, the monitoring processor 1 is positioned, a sliding pressing plate 203 is moved downwards in the central sliding groove of the vertical frame 202 through a first threaded shaft 204, the pressing plate 203 is attached to the top end surface of the monitoring processor 1, the first nut 205 is rotated to be attached to the rear end of the vertical frame 202, the positioning of the monitoring processor 1 is enhanced, the assembled bottom plate 201 below the monitoring processor 1 is stably placed on the ground by the worker, the monitoring processor 1 is far away from the ground, the third transmission line 10 is connected to the extraction processor 601 in the extraction processing structure 6, the first transmission line 4 is connected between the monitoring processor 1 and the relay processor 5, the second transmission line 8 is connected between the relay processor 5 and the notebook 9, the sealing cover 606 covers the outer side of the extraction processor 601, the fixing plate 605 is attached to the sealing cover 602 through the fourth threaded shaft 603, the withdrawing fastening head 604 is rotatably positioned on the fourth transmission line 11, the sealing cover 606 is positioned, the third transmission line 10 and the fourth transmission line 11 are protected, then the monitor 701 in the monitoring structure 7 connected to the outer side of the extraction processor 601 through the fourth transmission line 11 is thrown into the monitoring area, the inner core processor 704 and the electric telescopic rod 703 on the inner side of the monitor 701 are controlled through the notebook 9 to start to work, the electric telescopic rod 703 pushes the inner core processor 704 to open outwards, the sealing ring 707 at the top end of the bottom cover 706 is separated from the sealing groove 702 at the bottom end of the monitor 701, the inner core processor 704 in the filter cover 705 is exposed, the concentration of the floating algae nearby is monitored by starting to emit ultraviolet rays, the monitored signals are transmitted to the monitoring processor 1 through the extraction processor 601 to be analyzed, the analysis speed of the environment is accelerated by matching with the relay processor 5, the analysis speed is displayed through the notebook 9, after the monitoring is finished, the electric telescopic rod 703 in the monitor 701 is controlled to collect the inner core processor 704 into the inner side of the monitor 701, and the sealing ring 707 is clamped into the sealing groove 702 to seal and retrieve the monitor 701.

Example 2:

Referring to fig. 1, the present invention provides a technical solution:

The utility model provides a planktonic algae concentration monitor based on fluorescence sensing technique, including monitor processor 1, monitor processor 1's outside is equipped with fixed knot constructs 2, fixed knot constructs 2 including bottom plate 201, the top rear side fixedly connected with vertical frame 202 of bottom plate 201, monitor processor 1's top sliding connection has clamp plate 203, clamp plate 203's rear end fixedly connected with first screw thread axle 204, and first screw thread axle 204 and vertical frame 202 sliding connection, first screw thread axle 204's outside screwed connection has first nut 205, and first nut 205 and vertical frame 202 sliding connection, monitor processor 1's front end fixedly connected with signal receiver 3, monitor processor 1's rear end fixedly connected with first transmission line 4, first transmission line 4's the other end fixedly connected with relay processor 5, relay processor 5's top fixedly connected with second transmission line 8, second transmission line 8's the other end fixedly connected with notebook 9, monitor processor 1's left end fixedly connected with third transmission line 10.

The working flow is as follows: when processing simpler planktonic algae environment, the staff pulls out first transmission line 4 and second transmission line 8, takes off relay processor 5, connects second transmission line 8 between monitor processor 1 and notebook 9, and the signal of receipt directly has signal receiver 3 and second transmission line 8 to the notebook 9 in, handles planktonic algae environment.

The principles and embodiments of the present invention have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present invention and its core ideas. The foregoing is merely illustrative of the preferred embodiments of this invention, and it is noted that there is objectively no limit to the specific structure disclosed herein, since numerous modifications, adaptations and variations can be made by those skilled in the art without departing from the principles of the invention, and the above-described features can be combined in any suitable manner; such modifications, variations and combinations, or the direct application of the inventive concepts and aspects to other applications without modification, are contemplated as falling within the scope of the present invention.

Claims

1. Floating algae concentration monitor based on fluorescence sensing technology, including monitor processor (1), its characterized in that: the outside of monitor treater (1) is equipped with fixed knot and constructs (2), fixed knot constructs (2) including bottom plate (201), the top rear side fixedly connected with vertical frame (202) of bottom plate (201), the top sliding connection of monitor treater (1) has clamp plate (203), the rear end fixedly connected with first screw shaft (204) of clamp plate (203), and first screw shaft (204) and vertical frame (202) sliding connection, the outside screwed connection of first screw shaft (204) has first nut (205), and first nut (205) and vertical frame (202) sliding connection, the front end fixedly connected with signal receiver (3) of monitor treater (1), the rear end fixedly connected with first transmission line (4) of monitor treater (1), the other end fixedly connected with relay treater (5) of first transmission line (4), the top fixedly connected with second transmission line (8) of relay treater (5), the other end fixedly connected with note (9) of second transmission line (8), the other end fixedly connected with third transmission line (10) of monitor treater (1);

the front end of the vertical frame (202) is slidably connected with a support frame (206), the rear end of the support frame (206) is fixedly connected with a second threaded shaft (207), the second threaded shaft (207) is slidably connected with the vertical frame (202), the outer side of the second threaded shaft (207) is spirally connected with a second nut (208), the second nut (208) is slidably connected with the vertical frame (202), the inner side of the support frame (206) is provided with a third threaded shaft (209), the third threaded shaft (209) penetrates through the support frame (206), the third threaded shaft (209) is slidably connected with the support frame (206), the top end of the third threaded shaft (209) is fixedly connected with a foot seat (211), the foot seat (211) is fixedly connected with the monitoring processor (1), the outer side of the third threaded shaft (209) is spirally connected with a third nut (210), and the third nut (210) is slidably connected with the support frame (206);

The other end of the third transmission line (10) is fixedly connected with an extraction processing structure (6), the extraction processing structure (6) comprises an extraction processor (601), the front end of the extraction processor (601) is slidably connected with a sealing cover (602), the front end of the sealing cover (602) is fixedly connected with a fourth threaded shaft (603), the front end of the sealing cover (602) is slidably connected with a fixing plate (605), the fixing plate (605) is slidably connected with the fourth threaded shaft (603), the outer side of the fourth threaded shaft (603) is spirally connected with a fastening head (604), the outer side of the fixing plate (605) is fixedly connected with a sealing cover (606), and the sealing cover (606) is slidably connected with the extraction processor (601);

The utility model provides an extract outside fixedly connected with fourth transmission line (11) of handling structure (6), the bottom fixedly connected with monitoring structure (7) of fourth transmission line (11), monitoring structure (7) are including monitor (701), the inboard fixedly connected with electric telescopic handle (703) in top of monitor (701), the bottom fixedly connected with inner core treater (704) of electric telescopic handle (703), the outside fixedly connected with filter mantle (705) of inner core treater (704), and filter mantle (705) and monitor (701) sliding connection, the bottom fixedly connected with bottom (706) of filter mantle (705), and bottom (706) and monitor (701) sliding connection.

2. The fluorescence sensing technology-based planktonic algae concentration monitor of claim 1, wherein: the support frame (206) is made of a plate made of a steel plate material, and a rubber layer is arranged at the bottom end of the pressing plate (203).

3. The fluorescence sensing technology-based planktonic algae concentration monitor of claim 2, wherein: the bottom of the closed cover (606) is arranged in an arc shape, and open slots are formed in the left end and the right end of the closed cover (606).

4. The fluorescence sensing technology-based planktonic algae concentration monitor of claim 1, wherein: the two ends of the first transmission line (4) and the second transmission line (8) are identical in structure, and three interfaces are respectively arranged at the right rear of the rear end of the monitoring processor (1) and the top end of the relay processor (5).

5. The fluorescence sensing technology-based planktonic algae concentration monitor of claim 1, wherein: a sealing groove (702) is formed in the bottom end of the monitor (701), a sealing ring (707) is fixedly connected to the top end of the bottom cover (706), and the sealing ring (707) is in sliding connection with the monitor (701).