CN111521439A - Water environment ecological remediation real-time monitoring device - Google Patents

Abstract

The invention provides a real-time monitoring device for water environment ecological restoration, which relates to the technical field of water body monitoring and aims to solve the problems that a conventional monitoring device can only enter the device through natural overflow of a water body and then is collected and monitored through a collector, the fluidity of a water sample is poor, the collection range is small, the conventional monitoring device is easily influenced by accidental factors for improving the local environment, and sundries in the water body easily enter the monitoring device, so that the normal use of the device is influenced; the electric control box is internally provided with a storage battery, and the storage battery is electrically connected with electrical elements in the whole device. According to the invention, the four side walls of the drainage frame are respectively provided with the drainage ports with the outer ends being flared, so that surrounding water can be sucked to cause the flow of a water system, and a water sample is sent to the collection box, so that the collector can collect the surrounding flowing water sample, and the problem of accidental deviation in static water sample monitoring is avoided.

Description

Water environment ecological remediation real-time monitoring device

Technical Field

The invention relates to the technical field of water body monitoring, in particular to a real-time monitoring device for water environment ecological restoration.

Background

The water environment is one of the basic elements forming the environment, is an important place for the survival and development of the human society, and is also the field which is most seriously interfered and damaged by human beings, the pollution and the damage of the water environment become one of the main environmental problems in the world at present, water bodies such as lakes, rivers, artificial waterscape and the like are closely related to the life of people, a large area of water eutrophication causes a plurality of adverse effects on the life of people, and a water treatment technology and a water body restoration technology are also greatly developed.

Current water environment restoration monitoring devices is as a water environment ecological remediation real-time monitoring device in patent application CN201921199935.1 more, including the flotation tank, the bottom fixedly connected with weight box of flotation tank, the fixed counterweight assembly that is provided with in inner chamber of weight box, counterweight assembly includes the backup pad, the top of backup pad and the top welding of weight box inner chamber, the guide post has all been welded at the top of backup pad both sides, the one side of guide post and the inner wall welding of weight box, the sliding surface of guide post is connected with the sliding sleeve. The utility model discloses a set up gravity sensor and be used for responding to the gravity at flotation tank both ends, when the flotation tank is uneven, send numerical value for the PLC controller and handle to move servo motor and control, thereby make the balancing weight remove about, keep the balance of flotation tank, improved the stability of repacking to, solved current device and had the not enough problem of stability, thereby ensured monitoring devices's normal operating.

Current water ecological remediation monitoring devices, it monitors to arrange the device in the aquatic more directly, through gathering water monitoring water quality environment, and conventional monitoring devices only can enter into the device through the natural overflow of water after, gather the monitoring through the collector, the mobility of water sample is relatively poor, and the collection scope is less moreover, easily receives the accidental factor influence that local environment improved to debris in the water easily enters into monitoring devices, thereby influences the normal use of device.

Therefore, in view of the above, research and improvement are performed on the existing structure and defects, and a real-time monitoring device for water environment ecological restoration is provided, so as to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a real-time monitoring device for water environment ecological restoration, which aims to solve the problems that a conventional monitoring device can only enter the device through natural overflow of a water body and then is collected and monitored through a collector, the water sample has poor mobility and a small collection range and is easily influenced by accidental factors for improving local environment, and impurities in the water body easily enter the monitoring device, so that the normal use of the device is influenced.

The invention relates to a real-time monitoring device for water environment ecological restoration, which is realized by the following specific technical means:

a real-time monitoring device for water environment ecological restoration comprises an electric cabinet; the electric control box is internally provided with a storage battery which is electrically connected with electrical elements in the whole device; four edges of the electric cabinet extend outwards horizontally to form a racket-shaped floating bed; the lower end of the electric cabinet is fixedly butted with a rectangular collection box; the lower end of the collection box is fixedly butted with a bottom frame; the bottom frame comprises a floating ring and an anchor, a circle of convex floating ring is arranged on the ring edge at the joint of the upper end of the bottom frame and the lower end of the collecting box, and the left side wall and the right side wall of the bottom frame are fixedly connected with the anchor through iron chains respectively;

a drainage frame is fixedly arranged in the middle of the underframe; a drainage mechanism is vertically arranged in the drainage frame, and the upper end of the drainage frame is communicated with the lower end of the collection box; the middle part of the electric cabinet is vertically provided with a collector downwards and is arranged in the collection box.

Further, the electric cabinet includes wireless transceiver and controller, the perpendicular upwards fixed mounting in upper end middle part of electric cabinet has wireless transceiver, the electric cabinet embeds there is the controller, and its controller is connected through ordinary electric property with wireless transceiver.

Furthermore, the floating bed comprises a photovoltaic power generation unit and a floating ball, the photovoltaic power generation unit in the regular four-side pyramid shape is fixedly installed on the top plane of the floating bed, the photovoltaic power generation unit is electrically connected with a storage battery in the electric control box, and the floating balls in the annular array and uniform in interval are fixedly installed on the bottom plane of the floating bed.

Furthermore, the collection box comprises an overflow pipe, the overflow pipe is fixedly installed on each of the four side walls of the collection box, the outer end opening of the overflow pipe is the lower end, the upper end opening of the overflow pipe is located at the upper end of the side wall of the overflow pipe tangent to the collection box, and the upper end opening of the overflow pipe is communicated with the interior of the collection box.

Further, the drainage frame includes drainage mouth and intercommunicating pore, all set up the drainage mouth that the outer end is the flaring on the four lateral walls of drainage frame, the vertical intercommunicating pore that communicates with the collection box next of top of seting up in middle part of drainage frame, and the built-in drainage mechanism that has of intercommunicating pore.

Further, drainage mechanism includes dive motor, advection oar, erects and pushes away oar and bearing bracket, drainage mechanism's lower extreme fixed mounting has dive motor, dive motor's pivot upwards passes drainage bracket fixed mounting perpendicularly and has advection oar in the intercommunicating pore, and its advection oar's position is in the middle part of drainage mouth just, fixed mounting has the spiral helicine vertical push away oar of width under the narrow again in the pivot of advection oar upper end, and the upper end of pivot is passed through bearing bracket fixed mounting is in intercommunicating pore upper end department.

Further, the collector includes protection casing, reposition of redundant personnel and filtration grid, the lower extreme sealing cover of collector has the protection casing, and the upper end fixed mounting of its protection casing bottom plate has the reposition of redundant personnel of taper, the edge of protection casing is provided with the annular filtration grid of round perpendicularly, and is very much, and the below of collector is just to the position at the bearing bracket place on the drainage mechanism.

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

as the four side walls of the drainage frame are respectively provided with the drainage ports with flared outer ends, the middle part of the drainage frame is vertically provided with the intercommunicating pore which is communicated with the next collecting box above, the intercommunicating pore is internally provided with the drainage mechanism, the large impurities in the water can be primarily filtered, the problem that the monitoring data is influenced when the impurities enter the collecting box and are accumulated for a long time is avoided, the four side walls of the collecting box are respectively and fixedly provided with the overflow pipe, the outer end opening of the overflow pipe is the lower end, the upper end opening of the overflow pipe is positioned at the upper end of the side wall of the overflow pipe which is tangent to the collecting box, the upper end opening of the overflow pipe is communicated with the inside of the collecting box, when the surrounding water is sucked in the collecting box, the water in the collecting box is drained back to the water system through the overflow pipe, the possibility that the water enters the collecting box from the overflow pipe is reduced, thereby ensuring that the collected, and in cooperation, the lower extreme fixed mounting of drainage mechanism has the dive motor, the pivot of dive motor passes drainage frame fixed mounting perpendicularly upwards and has the advection oar in the intercommunicating pore, the position of its advection oar is in the middle part of drainage mouth just, the spiral helicine vertical push oar that width under narrow is again fixed mounting in the pivot of advection oar upper end, the upper end of pivot passes through bearing bracket fixed mounting in intercommunicating pore upper end department, the rotation of accessible dive motor drives the advection oar and vertical push oar and rotates, thereby can inhale water on every side, arouse the flow of river system, send the water sample to the collection box, so that the collector can gather the mobile water sample on every side, avoided the problem of static water sample monitoring appearance accidental deviation.

Because the lower end of the collector is covered by the protective cover, the tapered shunt body is fixedly arranged at the upper end of the bottom plate of the protective cover, and the edge of the protective cover is vertically provided with a circle of annular filter grids, particularly, the position of the bearing frame on the drainage mechanism is just opposite to the lower part of the collector, so that the problem that sundries are gathered at the collecting position of the collector can be ensured, and the monitoring accuracy is ensured.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a front right upper axial view of the present invention.

Fig. 2 is a schematic diagram of the right front lower axial view structure of the invention.

Fig. 3 is a schematic front view of the present invention.

Fig. 4 is a partial axial view of the chassis and drainage mechanism of the present invention.

Fig. 5 is a partial axial view structural schematic diagram of the drainage frame and the drainage mechanism of the invention.

FIG. 6 is a schematic axial view of a portion of the inventive pick box separated from the electrical cabinet.

Fig. 7 is a schematic view of the partial axial view of the collector of the present invention.

Fig. 8 is a block diagram of the system architecture of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. an electric cabinet; 101. a wireless transceiver; 102. a controller; 2. floating bed; 201. a photovoltaic power generation set; 202. a floating ball; 3. a collection box; 301. an overflow pipe; 4. a chassis; 401. a floating ring; 402. an anchor; 5. a drainage frame; 501. a drainage opening; 502. a communicating hole; 6. a drainage mechanism; 601. a submersible motor; 602. a advection paddle; 603. vertically pushing the paddle; 604. a bearing bracket; 7. a collector; 701. a protective cover; 702. a flow divider; 703. and (5) filtering the grating.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides a real-time monitoring device for water environment ecological restoration, which comprises an electric cabinet 1; the electric control box 1 is internally provided with a storage battery which is electrically connected with electrical elements in the whole device; four edges of the electric cabinet 1 extend outwards horizontally to form a racket-shaped floating bed 2; the floating bed 2 comprises a photovoltaic power generation set 201 and a floating ball 202, the photovoltaic power generation set 201 in a regular four-side pyramid shape is fixedly installed on the top plane of the floating bed 2, the photovoltaic power generation set 201 is electrically connected with a storage battery in the electric cabinet 1, and the floating balls 202 in an annular array and uniform in interval are fixedly installed on the bottom plane of the floating bed 2; the lower end of the electric cabinet 1 is fixedly butted with a rectangular collecting box 3; the lower end of the collection box 3 is fixedly butted with a bottom frame 4; the underframe 4 comprises a floating ring 401 and an anchor 402, a circle of convex floating ring 401 is arranged on the ring edge at the joint of the upper end of the underframe 4 and the lower end of the collection box 3, and the left side wall and the right side wall of the underframe 4 are fixedly connected with the anchor 402 through iron chains respectively;

the middle part of the bottom frame 4 is fixedly provided with a drainage frame 5; a drainage mechanism 6 is vertically arranged in the drainage frame 5, and the upper end of the drainage frame 5 is communicated with the lower end of the collection box 3; the middle part of the electric cabinet 1 is vertically provided with a collector 7 downwards and is arranged in the collection box 3.

Wherein, electric cabinet 1 includes wireless transceiver 101 and controller 102, the perpendicular upwards fixed mounting in upper end middle part of electric cabinet 1 has wireless transceiver 101, and electric cabinet 1 embeds has controller 102, and its controller 102 is connected through ordinary electric property with wireless transceiver 101, and accessible wireless transceiver 101 is linked together with outside mobile device, the remote control of being convenient for, and its controller 102 model is ARM, and wireless transceiver 101 model is P440.

Wherein, collection box 3 includes overflow pipe 301, all fixedly mounted with overflow pipe 301 on the four lateral walls of collection box 3, the outer end opening of its overflow pipe 301 is the lower extreme, and the upper end opening of overflow pipe 301 is located the upper end of the lateral wall that overflow pipe 301 and collection box 3 are tangent, and its upper end opening is linked together with collection box 3 is inside, after sucking surrounding water in collection box 3, return drainage of inside water to the water system through overflow pipe 301, and reduce the possibility that gets into collection box 3 from overflow pipe 301, thereby guarantee that the water of gathering is water under the circulation state all the time, so as to guarantee real-time measurement's accuracy.

Wherein, drainage frame 5 includes drainage mouth 501 and intercommunicating pore 502, all sets up the outer end on the four lateral walls of drainage frame 5 and be flared drainage mouth 501, the vertical intercommunicating pore 502 who sets up 3 next intercommunications with the collection box of top in middle part of drainage frame 5, and the intercommunicating pore 502 built-in have drainage mechanism 6, can carry out prefilter to great impurity in the quality of water, avoid impurity to carry out long-time piling up and the problem that influences the monitoring data appears in entering into collection box 3.

Wherein the drainage mechanism 6 comprises a submersible motor 601, a advection paddle 602, a vertical pushing paddle 603 and a bearing frame 604, the submersible motor 601 is fixedly arranged at the lower end of the drainage mechanism 6, the rotating shaft of the submersible motor 601 vertically and upwardly penetrates through the drainage frame 5 to be fixedly provided with the advection paddle 602 in the communicating hole 502, the position of the advection paddle 602 is just in the middle of the drainage opening 501, a spiral vertical pushing paddle 603 with a narrow top and a wide bottom is fixedly arranged on a rotating shaft at the upper end of the advection paddle 602, the upper end of the rotating shaft is fixedly arranged at the upper end opening of the communicating hole 502 through a bearing bracket 604, the horizontal flow paddle 602 and the vertical pushing paddle 603 can be driven to rotate by the rotation of the submersible motor 601, thereby sucking the surrounding water, causing the water system to flow, sending the water sample to the collection box 3, so that collector 7 can gather the flowing water sample on every side, avoided static water sample monitoring to appear the problem of accidental deviation.

The collector 7 comprises a protective cover 701, a flow dividing body 702 and a filter grid 703, the protective cover 701 is arranged on the lower end of the collector 7 in a sealing mode, the tapered flow dividing body 702 is fixedly installed at the upper end of the bottom plate of the protective cover 701, a circle of annular filter grid 703 is vertically arranged at the edge of the protective cover 701, and particularly, the position of the bearing frame 604 on the drainage mechanism 6 under the collector 7 is aligned, so that the problem that sundries are gathered at the collecting position of the collector 7 can be avoided, and the monitoring accuracy is ensured.

The specific use mode and function of the embodiment are as follows:

in the using process, as the four side walls of the drainage frame 5 are all provided with the drainage ports 501 with flared outer ends, the middle part of the drainage frame 5 is vertically provided with the communicating holes 502 communicated with the next collecting box 3 above, the inside of each communicating hole 502 is provided with the drainage mechanism 6, the large impurities in the water quality can be preliminarily filtered, the problem that the monitoring data is influenced as the impurities enter the collecting box 3 to be accumulated for a long time is avoided, the four side walls of the collecting box 3 are all fixedly provided with the overflow pipes 301, the outer end openings of the overflow pipes 301 are lower ends, the upper end openings of the overflow pipes 301 are positioned at the upper ends of the side walls of the overflow pipes 301 tangent to the collecting box 3, the upper end openings of the overflow pipes are communicated with the inside of the collecting box 3, when the surrounding water is sucked into the collecting box 3, the water in the inside is drained back to the water system through the overflow pipes 301, so that the possibility that the water enters the collecting box 3 from, thereby ensuring that the collected water is always in a circulating state so as to ensure the accuracy of real-time measurement, in addition, the lower end of the drainage mechanism 6 is fixedly provided with a diving motor 601, the rotating shaft of the diving motor 601 vertically and upwards passes through the drainage frame 5 to be fixedly provided with a horizontal flow paddle 602 which is arranged in the communicating hole 502, the position of the advection paddle 602 is just in the middle of the drainage opening 501, a spiral vertical pushing paddle 603 with a narrow top and a wide bottom is fixedly arranged on a rotating shaft at the upper end of the advection paddle 602, the upper end of the rotating shaft is fixedly arranged at the upper end opening of the communicating hole 502 through a bearing bracket 604, the horizontal flow paddle 602 and the vertical pushing paddle 603 can be driven to rotate by the rotation of the submersible motor 601, thereby sucking the surrounding water, causing the water system to flow, sending the water sample to the collection box 3, so that the collector 7 can collect the surrounding flowing water sample, and the problem of accidental deviation in static water sample monitoring is avoided;

in addition, the middle part of the upper end of the electric cabinet 1 is vertically and upwards fixedly provided with a wireless transceiver 101, the electric cabinet 1 is internally provided with a controller 102, the controller 102 is electrically connected with the wireless transceiver 101 in a common way and is communicated with external mobile equipment through the wireless transceiver 101, the remote control is convenient, in addition, a regular four-sided pyramid-shaped photovoltaic power generation set 201 is fixedly arranged on the top plane of the floating bed 2, the photovoltaic power generation set 201 is electrically connected with a storage battery in the electric cabinet 1, and floating balls 202 with uniform annular array intervals are fixedly arranged on the bottom plane of the floating bed 2. on one hand, the solar energy can be better collected and converted into electric energy through the special structure of the photovoltaic power generation set 201, so that the electric energy can be stored in the storage battery of the electric cabinet 1 for the convenience of electric energy storage, the equipment can normally operate in daily life, on the other hand, the whole device can, mainly, the photovoltaic power generation set 201 and the upper end part of the electric cabinet 1 can be prevented from being immersed in water, so that the normal operation of equipment can be guaranteed;

the lower end of the collector 7 is sealed with a protective cover 701, the upper end of the bottom plate of the protective cover 701 is fixedly provided with a tapered flow distribution body 702, the edge of the protective cover 701 is vertically provided with a ring of annular filter grids 703, and particularly, the position of the lower part of the collector 7 opposite to the position of the bearing frame 604 on the drainage mechanism 6 can ensure that the problem of sundries gathering at the collecting position of the collector 7 can not occur, thereby ensuring the monitoring accuracy.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. The utility model provides a water environment ecological remediation real-time supervision device which characterized in that: comprises an electric cabinet (1); the electric control box (1) is internally provided with a storage battery, and the storage battery is electrically connected with electrical elements in the whole device; four edges of the electric cabinet (1) extend outwards horizontally to form a racket-shaped floating bed (2); the lower end of the electric cabinet (1) is fixedly butted with a rectangular collection box (3); the lower end of the collection box (3) is fixedly butted with a bottom frame (4); the bottom frame (4) comprises a floating ring (401) and an anchor (402), a circle of convex floating ring (401) is arranged on the ring edge of the joint of the upper end of the bottom frame (4) and the lower end of the collection box (3), and the left side wall and the right side wall of the bottom frame (4) are fixedly connected with the anchor (402) through iron chains respectively;

a drainage frame (5) is fixedly arranged in the middle of the bottom frame (4); a drainage mechanism (6) is vertically arranged in the drainage frame (5), and the upper end of the drainage frame (5) is communicated with the lower end of the collection box (3); the middle part of the electric cabinet (1) is vertically provided with a collector (7) downwards and arranged in the collection box (3).

2. The real-time monitoring device for the ecological restoration of the water environment according to claim 1, characterized in that: the electric cabinet (1) comprises a wireless transceiver (101) and a controller (102), the wireless transceiver (101) is vertically and upwards fixedly mounted in the middle of the upper end of the electric cabinet (1), the controller (102) is arranged in the electric cabinet (1), and the controller (102) is electrically connected with the wireless transceiver (101) in a common mode.

3. The real-time monitoring device for the ecological restoration of the water environment according to claim 1, characterized in that: the floating bed (2) comprises a photovoltaic power generation set (201) and a floating ball (202), the photovoltaic power generation set (201) with regular four-side pyramid shape is fixedly installed on the top plane of the floating bed (2), the photovoltaic power generation set (201) is electrically connected with a storage battery in the electric cabinet (1), and the floating ball (202) with uniform annular array intervals is fixedly installed on the bottom plane of the floating bed (2).

4. The real-time monitoring device for the ecological restoration of the water environment according to claim 1, characterized in that: collection box (3) are including overflow pipe (301), all fixed mounting has overflow pipe (301) on the four lateral walls of collection box (3), and the outer end opening of its overflow pipe (301) is the lower extreme, and the upper end opening of overflow pipe (301) then is located the upper end of overflow pipe (301) and the tangent lateral wall of collection box (3), and its upper end opening is linked together with collection box (3) inside.

5. The real-time monitoring device for the ecological restoration of the water environment according to claim 1, characterized in that: drainage frame (5) are including drainage mouth (501) and intercommunicating pore (502), all set up on the four lateral walls of drainage frame (5) outer end for flared drainage mouth (501), the intercommunicating pore (502) with the collection box (3) next intercommunication of top are vertically seted up in the middle part of drainage frame (5), and the built-in drainage mechanism (6) that has of intercommunicating pore (502).

6. The real-time monitoring device for the ecological restoration of the water environment according to claim 1, characterized in that: drainage mechanism (6) include dive motor (601), advection oar (602), erect propeller (603) and bearing bracket (604), the lower extreme fixed mounting of drainage mechanism (6) has dive motor (601), the pivot of dive motor (601) is perpendicular upwards to pass drainage bracket (5) fixed mounting have advection oar (602) in intercommunicating pore (502), and the position of its advection oar (602) is in the middle part of drainage mouth (501) just, fixed mounting has wide spiral helicine vertical propeller (603) under the narrow again in the pivot of advection oar (602) upper end, and the upper end of pivot is passed through bearing bracket (604) fixed mounting is in intercommunicating pore (502) upper end mouth department.

7. The real-time monitoring device for the ecological restoration of the water environment according to claim 1, characterized in that: collector (7) are including protection casing (701), reposition of redundant personnel (702) and filter grid (703), the lower extreme of collector (7) covers there is protection casing (701), and the upper end fixed mounting of its protection casing (701) bottom plate has subulate reposition of redundant personnel (702), the edge of protection casing (701) is provided with round annular filter grid (703) perpendicularly, and is special, and the below of collector (7) is just to the position at bearing bracket (604) place on drainage mechanism (6).

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