CN220690139U - Remote monitoring device for water ecological environment - Google Patents

Abstract

The utility model discloses a remote monitoring device for an aquatic ecological environment, which comprises a monitoring device body and a detection groove, wherein the inner wall of a placing plate is provided with the placing groove, the inner wall of the placing groove is movably provided with a detection cylinder, the inner wall of the detection cylinder is provided with a floating plate, the inner wall of the detection cylinder is provided with mercury, the inner wall of the detection cylinder is provided with a button, the outer wall of the detection cylinder is provided with an alarm, and the inner wall of the monitoring device body is provided with a heat dissipation fan. According to the utility model, the heat radiating device is arranged, the detection cylinder is moved into the placing groove, mercury in the detection cylinder expands when the mercury is heated, the alarm is started to remind a worker that the internal temperature of the detection cylinder is too high when the floating plate is contacted with the button, the heat radiating fan is started to work, the heat radiating fan radiates the inside of the monitoring device body, and the situation that the service life of the circuit element is influenced because the heat in the monitoring device body is accumulated more and is difficult to radiate is avoided, and the circuit element is in a high-temperature state for a long time.

Description

Remote monitoring device for water ecological environment

Technical Field

The utility model relates to the technical field of monitoring devices, in particular to a remote monitoring device for an aquatic ecology environment.

Background

The water ecology refers to the influence of environmental water factors on organisms and the adaptation of the organisms to various water conditions, life originates in water, water is an important component of all organisms, the organisms continuously exchange water with the environment, the quality and quantity of the water in the environment are important factors for determining the distribution of the organisms, the composition and quantity of the species and the life style, so that the water ecology is vital to our life, the condition of the water ecology environment needs to be monitored, the water ecology environment needs to be monitored by using an artificial intelligent remote monitoring device, an ecological environment detection device is arranged in the water, then the ecological environment detection device detects the water ecology, the information of the ecological environment detection device is conveyed to a monitoring device through a sensor in the ecological environment detection device, and workers can watch and monitor the water ecology environment.

The existing remote monitoring device for the water ecological environment can monitor the water ecological environment, but when the circuit element in the monitoring device works for a long time, the circuit element can emit heat through the circuit element, the heat of the circuit element can be emitted in the monitoring device, and when the heat in the monitoring device is accumulated more and is difficult to be emitted, the circuit element can be in a high-temperature state for a long time, and the service life of the circuit element is influenced.

Disclosure of Invention

The utility model aims to provide a remote water ecological environment monitoring device, which aims to solve the technical problem of heat dissipation in the remote water ecological environment monitoring device in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a remote monitoring device for an aquatic environment, comprising:

the monitoring device comprises a monitoring device body, wherein a plurality of groups of connecting holes are formed in the outer wall of the monitoring device body;

the detection groove, the detection groove sets up in the top of monitoring devices body, and the one end of detection groove extends to the inside of monitoring devices body, the locating plate is installed to the inner wall of detection groove, the inner wall of locating plate is equipped with the locating groove, the inner wall movable mounting of locating groove has a detection section of thick bamboo, the limiting plate is installed around the outer wall of detection section of thick bamboo, the kickboard is installed to the inner wall of detection section of thick bamboo, the inner wall of detection section of thick bamboo is equipped with mercury, the button is installed to the inner wall of detection section of thick bamboo, the alarm is installed to the outer wall of detection section of thick bamboo, the radiator fan is installed to the inner wall of monitoring devices body, the inner wall of monitoring devices body is equipped with the ventilation groove, the dust screen is installed to the inner wall of ventilation groove.

Preferably, the outer wall of the monitoring device body is provided with a door plate, and the inner wall of the monitoring device body is provided with a plurality of groups of circuit elements.

Preferably, the inner wall of the monitoring device body is provided with a chute, and the inner wall of the chute is movably provided with a storage plate.

Preferably, the outer wall of collecting plate is equipped with multiunit cell body, the slide bar is installed to the inner wall of cell body, the slide plate is installed around the outer wall of slide bar, the spring is installed to the inner wall of cell body, and the one end of spring is fixed connection with the outer wall of slide, hemispherical block is installed to the outer wall of slide, the inner wall of spout is equipped with hemispherical groove.

Preferably, the outer wall of storage plate is equipped with the storage tank, the gag lever post is installed to the inner wall of storage tank, the movable plate is installed around the outer wall of gag lever post, multiunit sucking disc is installed to the outer wall of movable plate.

Preferably, the outer wall of the movable plate is provided with a plurality of groups of magnet bodies, and the inner wall of the storage groove is provided with a plurality of groups of electromagnets.

Preferably, the outer wall of the storage plate is provided with a channel, one end of the channel extends to the inside of the storage groove, the inner wall of the channel is movably provided with a push column, and one end of the push column is fixedly connected with the moving plate.

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

1. the utility model dissipates heat in the monitoring device body through the heat dissipation device, when the circuit element works for a long time, the circuit element can emit heat through the circuit element, the heat can be emitted in the monitoring device body, when the heat in the monitoring device body is accumulated more and is difficult to emit, the circuit element can be in a high temperature state for a long time, the service life of the circuit element is influenced, therefore, the monitoring device body needs to be dissipated, the detection cylinder is moved into the placing groove in the placing plate, the limiting plate is positioned above the placing groove, the temperature sensing end of the detection cylinder is positioned in the monitoring device body, when the temperature in the monitoring device body is overhigh, mercury in the detection cylinder is expanded when encountering heat, when the floating plate is pushed to move, an alarm starts to remind a worker of monitoring the temperature in the device body to be too high when the floating plate is touched with a button, at the moment, the worker starts a heat dissipation fan to work through an external control end, a ventilation groove enables the inside of the monitoring device body to circulate, a dust screen blocks dust, then the heat dissipation fan dissipates heat in the monitoring device body, a detection cylinder can be taken out of a placing groove, the detection cylinder is manually swung, mercury is reset, the next time of use of the detection cylinder is facilitated to detect the temperature in the monitoring device body, and the situation that circuit elements are in a high-temperature state for a long time and the service life of the circuit elements is influenced due to the fact that more heat in the monitoring device body is accumulated and difficult to be dissipated is avoided;

2. according to the utility model, the fixing device is arranged, so that the placement stability of the monitoring device body is improved, the monitoring device body is generally placed on the ground, no fixing device is arranged, when a worker accidentally kicks the monitoring device body, the position of the monitoring device body is enabled to move, the situation that a connecting wire in a connecting hole falls off from the connecting hole is caused, and the situation that the worker cannot watch the water ecological environment through a display screen is caused, therefore, the placement stability of the monitoring device body needs to be enhanced, a containing plate is pulled, the containing plate moves in a sliding groove, a hemispherical block is extruded with the inner wall of the sliding groove, a sliding plate moves on a sliding rod, a spring is in a compressed state, when the hemispherical block moves to the lower side of the hemispherical groove, the spring is reset, the hemispherical block is clamped into the hemispherical groove, one end of the containing plate is positioned at the outer side of the monitoring device body, one group of electromagnets are powered off, then a pushing column is pushed, the moving plate is enabled to move on a limiting rod, the sucker is enabled to attract the ground, the other group of electromagnets are enabled to contact with the other group of electromagnets, the electromagnets are enabled to attract the moving plate, the moving plate is enabled to be fixed on the ground, the other group of electromagnets, the electromagnets are enabled to attract the moving plate, the moving plate is enabled to be fixed, the connecting wire, the moving plate is enabled to be fixed to the connecting wire, the water ecological environment is caused, the situation is required to be the fact that the water ecological environment is caused, the situation is caused, and the situation that the water is connected to the people is caused to move the water-state, and the monitoring device is stably, and the device is connected to the position ground, and the human position is caused.

Drawings

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

FIG. 2 is a schematic diagram of the front structure of the present utility model;

FIG. 3 is an enlarged schematic view of FIG. 2A in accordance with the present utility model;

FIG. 4 is an enlarged schematic view of the utility model at B in FIG. 2;

fig. 5 is a schematic view of a part of the structure of the storage plate of the present utility model.

In the figure: 1. monitoring a device body; 2. a connection hole; 3. a door panel; 4. a circuit element; 5. a detection groove; 6. placing a plate; 7. a placement groove; 8. a detection cylinder; 9. a limiting plate; 10. a floating plate; 11. mercury; 12. a button; 13. an alarm; 14. a heat dissipation fan; 15. a ventilation groove; 16. a dust screen; 17. a chute; 18. a storage plate; 19. a tank body; 20. a slide bar; 21. a slide plate; 22. a spring; 23. hemispherical blocks; 24. hemispherical grooves; 25. a storage groove; 26. a limit rod; 27. a moving plate; 28. a suction cup; 29. a magnet body; 30. an electromagnet; 31. a channel; 32. pushing the column.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," 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 utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 and 2, a remote monitoring device for water ecology environment includes a monitoring device body 1, wherein a plurality of groups of connection holes 2 are formed in the outer wall of the monitoring device body 1, a door plate 3 is arranged on the outer wall of the monitoring device body 1, a plurality of groups of circuit elements 4 are mounted on the inner wall of the monitoring device body 1, the monitoring device body 1 is a remote monitoring device for water ecology environment, the monitoring device body 1 is connected with an external display screen by using the connection holes 2, the monitoring device body 1 is electrified, the door plate 3 is used for opening the monitoring device body 1, the internal circuit elements 4 are convenient to maintain, an ecological environment detection device is arranged in water, then the ecological environment detection device detects water ecology, information of the ecological environment detection device is transmitted to the monitoring device body 1 by using a sensor in the ecological environment detection device, the information of the ecological environment detection device is received by using the circuit elements 4, and workers can watch the water ecology environment through the display screen.

Referring to fig. 1, 2 and 3, a detection groove 5 is provided at the top of a monitoring device body 1, one end of the detection groove 5 extends to the inside of the monitoring device body 1, a placing plate 6 is mounted on the inner wall of the detection groove 5, a placing groove 7 is provided on the inner wall of the placing plate 6, a detection cylinder 8 is movably mounted on the inner wall of the placing groove 7, a limit plate 9 is mounted around the outer wall of the detection cylinder 8, a floating plate 10 is mounted on the inner wall of the detection cylinder 8, mercury 11 is provided on the inner wall of the detection cylinder 8, a button 12 is mounted on the inner wall of the detection cylinder 8, an alarm 13 is mounted on the outer wall of the detection cylinder 8, a heat dissipation fan 14 is mounted on the inner wall of the monitoring device body 1, a ventilation groove 15 is provided on the inner wall of the monitoring device body 1, a dust screen 16 is mounted on the inner wall of the ventilation groove 15, when a circuit element 4 works for a long time, a current can make the circuit element 4 emit heat, the heat is radiated inside the monitoring device body 1, when the heat in the monitoring device body 1 is accumulated more and is difficult to radiate, the circuit element 4 is in a high temperature state for a long time, the service life of the circuit element 4 is affected, so that the heat radiation is required to be conducted inside the monitoring device body 1, the detection cylinder 8 is moved into the placing groove 7 in the placing plate 6, the limiting plate 9 is positioned above the placing groove 7, the temperature sensing end of the detection cylinder 8 is positioned inside the monitoring device body 1, when the temperature inside the monitoring device body 1 is overhigh, the mercury 11 in the detection cylinder 8 expands when encountering heat, the floating plate 10 is pushed to move, when the floating plate 10 contacts with the button 12, the alarm 13 is started to remind a worker of monitoring the overhigh temperature inside the device body 1, and at the moment, the heat radiation fan 14 is started to work through the external control end, the ventilation groove 15 makes the inside circulation of air of monitoring devices body 1, and dust screen 16 blocks that the dust is used, and then the heat dissipation fan 14 dispels the heat to monitoring devices body 1 is inside to can take out detection section of thick bamboo 8 from standing groove 7, utilize the manual work to throw and move detection section of thick bamboo 8, make mercury 11 reset, and make things convenient for the next time use detection section of thick bamboo 8 to detect monitoring devices body 1 temperature condition, and then avoided piling up more being difficult to give off because of the inside heat of monitoring devices body 1, and lead to circuit element 4 to be in the high temperature state for a long time, and influence circuit element 4's life's condition.

Referring to fig. 2, 4 and 5, a chute 17 is provided on an inner wall of the monitoring device body 1, a storage plate 18 is movably mounted on an inner wall of the chute 17, a plurality of groups of grooves 19 are provided on an outer wall of the storage plate 18, a slide bar 20 is mounted on an inner wall of the groove 19, a slide plate 21 is mounted around an outer wall of the slide bar 20, a spring 22 is mounted on an inner wall of the groove 19, one end of the spring 22 is fixedly connected with an outer wall of the slide plate 21, a hemispherical block 23 is mounted on an outer wall of the slide plate 21, a hemispherical groove 24 is provided on an inner wall of the chute 17, a storage groove 25 is provided on an outer wall of the storage plate 18, a limit rod 26 is mounted on an inner wall of the storage groove 25, a plurality of groups of sucking discs 28 are mounted on an outer wall of the limit rod 26, a plurality of groups of magnet bodies 29 are mounted on an outer wall of the movement plate 27, a plurality of groups of electromagnets 30 are mounted on an inner wall of the storage groove 25, a channel 31 is provided on an outer wall of the storage plate 18, and one end of the channel 31 extends to the inside of the storage slot 25, the push post 32 is movably mounted on the inner wall of the channel 31, one end of the push post 32 is fixedly connected with the moving plate 27, the monitoring device body 1 is generally placed on the ground, and there is no fixed device, so that when a worker accidentally kicks the monitoring device body 1, the position of the monitoring device body 1 is moved, and the situation that the connecting wire in the connecting hole 2 falls off from the connecting hole 2 is likely, and the situation that the worker cannot view the water ecological environment through the display screen is likely, so that the placement stability of the monitoring device body 1 needs to be enhanced, the storage plate 18 is pulled, the storage plate 18 moves in the chute 17, the hemispherical block 23 is extruded with the inner wall of the chute 17, the sliding plate 21 moves on the sliding rod 20, the spring 22 is in a pressed state, when the hemispherical block 23 moves below the hemispherical groove 24, the spring 22 resets, the hemisphere piece 23 card is gone into hemisphere groove 24, and take in board 18 one end is located the outside of monitoring device body 1 this moment, wherein a set of electro-magnet 30 outage, promote push post 32 afterwards, make movable plate 27 remove on gag lever post 26, and make sucking disc 28 inhale with ground, and this moment another group of magnet body 29 contacts with another group of electro-magnet 30, at this moment with its electro-magnet 30 circular telegram with magnet body 29 adsorb, and then fix movable plate 27, make sucking disc 28 firm inhale with ground, and then the stability of placing of monitoring device body 1 has been improved, prevent that the staff from accidentally kick monitoring device body 1 and make monitoring device body 1 position take place to remove, and lead to the condition that the connecting wire in the connecting hole 2 drops from connecting hole 2, and make the staff unable condition of watching aquatic ecological environment through the display screen.

The working principle is that the monitoring device body 1 is a remote monitoring device for the water ecological environment, the monitoring device body 1 is connected with an external display screen by utilizing the connecting hole 2, the monitoring device body 1 is electrified, the door plate 3 is used for opening the monitoring device body 1, the internal circuit element 4 is convenient to maintain, the ecological environment detection device is arranged in water, then the ecological environment detection device detects the water ecology, the information of the water ecology is transmitted to the monitoring device body 1 by a sensor in the ecological environment detection device, the information of the water ecology is received by the circuit element 4, a worker can watch the water ecology through the display screen, when the circuit element 4 works for a long time, the circuit element 4 emits heat through the current, and the heat of the circuit element 4 can be emitted in the monitoring device body 1, when the heat in the monitoring device body 1 is accumulated more and is difficult to be dissipated, the circuit element 4 is in a high temperature state for a long time, and the service life of the circuit element 4 is affected, so that the heat dissipation needs to be conducted to the inside of the monitoring device body 1, the detection cylinder 8 is moved into the placing groove 7 in the placing plate 6, the limiting plate 9 is positioned above the placing groove 7, the temperature sensing end of the detection cylinder 8 is positioned in the monitoring device body 1, when the temperature in the monitoring device body 1 is too high, the mercury 11 in the detection cylinder 8 expands due to heat, the floating plate 10 is pushed to move, when the floating plate 10 is contacted with the button 12, the alarm 13 is started to remind a worker of monitoring the too high temperature in the monitoring device body 1, at the moment, the heat dissipation fan 14 is started to work through the external control end, the ventilation groove 15 enables the inside of the monitoring device body 1 to circulate air, the dust screen 16 is used for blocking dust, the heat radiation fan 14 radiates heat inside the monitoring device body 1, and the detection cylinder 8 can be taken out from the placing groove 7, the detection cylinder 8 is manually thrown, so that mercury 11 is reset, the next time the detection cylinder 8 is conveniently used for detecting the temperature condition in the monitoring device body 1, the condition that the circuit element 4 is in a high temperature state for a long time and the service life of the circuit element 4 is influenced due to the fact that more heat in the monitoring device body 1 is accumulated and difficult to radiate is avoided, the monitoring device body 1 is generally placed on the ground, no fixed device is arranged, when a worker accidentally kicks the monitoring device body 1, the position of the monitoring device body 1 is moved, the condition that a connecting wire in a connecting hole 2 falls off from the connecting hole 2 is likely, the condition that the worker cannot watch the water ecological environment through a display screen is avoided, it is necessary to enhance the placement stability of the monitoring device body 1, pull the storage plate 18 so that the storage plate 18 moves in the chute 17, and the hemispherical block 23 presses against the inner wall of the chute 17 so that the slide plate 21 moves on the slide rod 20, the spring 22 is in a pressed state, when the hemispherical block 23 moves below the hemispherical groove 24, the spring 22 is reset, the hemispherical block 23 is clamped into the hemispherical groove 24, and at this time, one end of the storage plate 18 is located outside the monitoring device body 1, one of the electromagnets 30 is powered off, then the pushing column 32 is pushed so that the moving plate 27 moves on the limit rod 26 and the suction cup 28 attracts the ground, and at this time, the other set of the magnets 29 contact the other set of the electromagnets 30, at this time, the electromagnet 30 is electrified to attract the magnet body 29, and the moving plate 27 is fixed so that the suction cup 28 is firmly attracted to the ground, and then improved monitoring device body 1's placement stability, prevent that the staff from inadvertently kicking monitoring device body 1 and making monitoring device body 1 position take place to remove, and lead to the connecting wire in the connecting hole 2 to drop from the condition in the connecting hole 2, and make the staff unable through the condition that the display screen watched aquatic ecological environment.

In the utility model, in order to further realize the purpose of remote monitoring, a CDMA module is further arranged in the device, the CDMA module is used for transmitting data information obtained by the monitoring device body to the cloud end, and the purpose of remote monitoring on the water ecological environment is realized based on cloud computing of the cloud end, the technical principle of remote monitoring is the prior art, and the technical scheme disclosed by a remote monitoring system based on cloud computing can be referred to as a Chinese patent application number 201610478083.4. Or, the device is provided with an optical fiber module, the optical fiber module is used for realizing data transmission to a control center through the optical fiber module, and realizing the purpose of remote monitoring, and the specific technical scheme is that in the prior art, the specific reference to Chinese patent application number can be made: 201610574470.8, the utility model discloses a remote monitoring system for the health state of a ship lock and a technical scheme disclosed by the monitoring method of the remote monitoring system.

Further, in order to achieve better remote monitoring, the utility model can achieve the purpose of remote monitoring through the mobile phone terminal and the monitoring room synchronously, so as to achieve the purpose of better carrying out remote real-time monitoring on the water ecological environment.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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. A remote monitoring device for an aquatic environment, comprising:

the monitoring device comprises a monitoring device body (1), wherein a plurality of groups of connecting holes (2) are formed in the outer wall of the monitoring device body (1);

the detection groove (5), detection groove (5) set up in the top of monitoring devices body (1), and the one end of detection groove (5) extends to the inside of monitoring devices body (1), place board (6) are installed to the inner wall of detection groove (5), the inner wall of placing board (6) is equipped with standing groove (7), the inner wall movable mounting of standing groove (7) has detection section of thick bamboo (8), detection section of thick bamboo (8)'s outer wall encircles and installs limiting plate (9), detection section of thick bamboo (8)'s inner wall installs kickboard (10), detection section of thick bamboo (8)'s inner wall is equipped with mercury (11), detection section of thick bamboo (8)'s inner wall installs button (12), alarm (13) are installed to detection section of thick bamboo (8)'s outer wall, heat dissipation fan (14) are installed to the inner wall of monitoring devices body (1), the inner wall of monitoring devices body (1) is equipped with ventilation groove (15), dust screen (16) are installed to the inner wall of ventilation groove (15).

2. The remote monitoring device for water ecological environment according to claim 1, wherein: the outer wall of the monitoring device body (1) is provided with a door plate (3), and the inner wall of the monitoring device body (1) is provided with a plurality of groups of circuit elements (4).

3. The remote monitoring device for water ecological environment according to claim 1, wherein: the inner wall of monitoring device body (1) is equipped with spout (17), the inner wall movable mounting of spout (17) has storage plate (18).

4. A remote monitoring device for an aquatic environment as defined in claim 3, wherein: the outer wall of storage board (18) is equipped with multiunit cell body (19), slide bar (20) are installed to the inner wall of cell body (19), slide plate (21) are installed around the outer wall of slide bar (20), spring (22) are installed to the inner wall of cell body (19), and the one end of spring (22) is fixed connection with the outer wall of slide plate (21), hemisphere piece (23) are installed to the outer wall of slide plate (21), the inner wall of spout (17) is equipped with hemisphere groove (24).

5. A remote monitoring device for an aquatic environment as defined in claim 3, wherein: the outer wall of storage board (18) is equipped with storage tank (25), gag lever post (26) are installed to the inner wall of storage tank (25), movable plate (27) are installed around the outer wall of gag lever post (26), multiunit sucking disc (28) are installed to the outer wall of movable plate (27).

6. The remote monitoring device for water ecological environment according to claim 5, wherein: a plurality of groups of magnet bodies (29) are arranged on the outer wall of the moving plate (27), and a plurality of groups of electromagnets (30) are arranged on the inner wall of the accommodating groove (25).

7. A remote monitoring device for an aquatic environment as defined in claim 3, wherein: the outer wall of storage plate (18) is equipped with passageway (31), and the one end of passageway (31) extends to the inside of accomodating groove (25), the inner wall movable mounting of passageway (31) has push away post (32), and pushes away the one end of post (32) and movable plate (27) and be fixed connection.