CN219532204U - Reservoir safety monitoring device - Google Patents

Abstract

The utility model relates to the technical field of water quantity monitoring and discloses a reservoir safety monitoring device, which comprises a foot plate, wherein the surface of the foot plate is provided with a mounting hole, the outside of the foot plate is fixedly connected with a transparent shell, the surface of the transparent shell is provided with a safety cavity, the surface of the transparent shell is provided with a warning cavity, and the surface of the transparent shell is provided with a dangerous cavity; through the safe chamber, warning chamber, dangerous chamber that the transparent shell inside set up according to different water level degree of depth, set up automatic trigger contact in safe chamber, warning chamber, dangerous intracavity portion simultaneously and make safe intracavity portion green lamp, warning intracavity portion yellow lamp, dangerous intracavity portion red lamp slide along with the water level degree of depth change by action cover under the buoyancy ball drive trigger the luminous suggestion people of circular telegram, and then make reservoir water level monitoring according to the hierarchical safety suggestion people of water level degree of depth, guaranteed reservoir water level monitoring and become directly perceived clear and fail safe nature.

Description

Reservoir safety monitoring device

Technical Field

The utility model relates to the technical field of water quantity monitoring, in particular to a reservoir safety monitoring device.

Background

The reservoir is a hydraulic engineering building which is generally explained as flood-control water storage and water flow regulation, can be utilized for irrigation, power generation, flood control and fish farming, and is an artificial lake formed by constructing a barrage at the narrow opening of a mountain ditch or river, and can play roles in flood control, water storage irrigation, water supply, power generation, fish farming and the like after the reservoir is constructed. Sometimes, natural lakes are also called reservoirs, and the scale of reservoirs is generally divided into small, medium and large sizes according to the size of the reservoir.

The current reservoir water quantity and water level monitoring adopts simple water level line measurement, and can not automatically trigger to prompt the reservoir water level according to safety levels at different water level stages of the reservoir water level, so that safety accidents such as drowning and the like are easily caused by inaccurate judgment of the reservoir water level.

Disclosure of Invention

The method aims at solving the problems that the current reservoir water quantity and water level monitoring adopts simple water level line measurement, and the reservoir water level cannot be automatically triggered to be classified in different water level stages of the reservoir water level, so that safety accidents such as drowning and the like are caused easily due to inaccurate judgment of the reservoir water level, and the purposes of grading, safety prompt, clarity, intuitionism, safety and reliability of the water level are achieved.

The utility model is realized by the following technical scheme: the utility model provides a reservoir safety monitoring device, includes the sole, the mounting hole has been seted up on the surface of sole, the outside fixedly connected with transparent shell of sole, the safe chamber has been seted up on the surface of transparent shell, the warning chamber has been seted up on the surface of transparent shell, dangerous chamber has been seted up on the surface of safe chamber, the inside fixedly connected with green lamp of safe chamber, the inside fixedly connected with yellow lamp of warning chamber, the inside fixedly connected with red lamp of dangerous chamber, the inside swing joint of safe chamber has the perception subassembly that is used for triggering green lamp, the outside fixedly connected with depth rule of transparent shell, the outside sliding connection of transparent shell has the action cover, the outside fixedly connected with pilot pin of action cover, the outside fixedly connected with floating plate of action cover, the outside fixedly connected with buoyancy ball of floating plate, the outside swing joint of buoyancy ball has the loose joint subassembly that is used for buoyancy ball gas to supply, the inside fixedly connected with square shell, contact, expansion plate, the inside fixedly connected with square shell of safe chamber, inside fixedly connected with square shell, expansion plate, inside sealing connection has the inside sealing connection of flexible air pipe.

Further, the number of the mounting holes is at least four, all the mounting holes are symmetrically distributed on the surface of the foot plate, the transparent shell is sequentially divided into a safety cavity, a warning cavity and a dangerous cavity from the bottom to the top, the safety cavity corresponds to a depth of water of less than five meters at zero, the warning cavity corresponds to a depth of water of more than five meters at zero and less than one and five meters, and the dangerous cavity corresponds to a depth of water of more than one and five meters.

Further, the safety cavity, the warning cavity and the dangerous cavity are internally provided with sensing components, the safety cavity corresponds to the position of the green lamp, the warning cavity corresponds to the position of the yellow lamp, and the dangerous cavity corresponds to the position of the red lamp.

Further, the expansion plate is in sliding sealing connection with the square shell, the expansion plate is in sliding sealing connection with the inner side of the transparent shell, the elastic sheet corresponds to the expansion plate in position, and the expansion plate corresponds to the contact in position.

Further, the contact inside the safety cavity is electrically connected with the green lamp, the contact inside the warning cavity is electrically connected with the yellow lamp, the contact inside the dangerous cavity is electrically connected with the red lamp, the contact triggers, the internal circuit of the contact is conducted, and then the green lamp or the yellow lamp or the red lamp at the corresponding position is electrified.

Further, the position of the indicator needle corresponds to the position of the depth gauge, the position of the buoyancy ball corresponds to the position of the floating plate, nitrogen is added into the buoyancy ball, the air pipe is communicated with the inside of the buoyancy ball, and the sealing plug is connected with the air pipe through threads.

The utility model provides a reservoir safety monitoring device. The beneficial effects are as follows:

this reservoir safety monitoring device, through the inside safe chamber that sets up according to different water level depths of transparent shell, warning chamber, dangerous chamber, simultaneously at safe chamber, warning chamber, dangerous intracavity portion set up automatic trigger contact and make safe intracavity portion green lamp, warning intracavity portion yellow lamp, dangerous intracavity portion red lamp slide along with the water level depth variation by action sleeve under the buoyancy ball drive trigger the luminous suggestion people of circular telegram, and then make reservoir water level monitoring according to the hierarchical safety suggestion people of water level depth, guaranteed reservoir water level monitoring and directly perceived clearly and fail safe nature.

Drawings

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

FIG. 2 is a schematic view of the internal cross-sectional structure of the present utility model;

FIG. 3 is an enlarged schematic view of the structure A in FIG. 2 according to the present utility model;

FIG. 4 is a schematic diagram of a portion of the connection structure of FIG. 2 according to the present utility model;

fig. 5 is an enlarged schematic view of the structure B in fig. 4 according to the present utility model.

In the figure: 1. foot plates; 2. a mounting hole; 3. a transparent shell; 4. a safety cavity; 5. a warning cavity; 6. a hazardous cavity; 7. a green lamp; 8. a yellow lamp; 9. a red light; 10. a sensing component; 101. a square shell; 102. a contact; 103. a spring plate; 104. a telescoping plate; 11. a depth gauge; 12. an action sleeve; 13. an indicator needle; 14. a floating plate; 15. a buoyancy ball; 16. a loose joint assembly; 161. an air pipe; 162. sealing and blocking.

Detailed Description

The reservoir safety monitoring device is as follows:

examples:

referring to fig. 1-5, a reservoir safety monitoring device includes a foot plate 1, mounting holes 2 are formed in the surface of the foot plate 1, a transparent shell 3 is fixedly connected to the outer portion of the foot plate 1, a safety cavity 4 is formed in the surface of the transparent shell 3, a warning cavity 5 is formed in the surface of the transparent shell 3, a dangerous cavity 6 is formed in the surface of the transparent shell 3, the number of the mounting holes 2 is at least four, all the mounting holes 2 are symmetrically distributed on the surface of the foot plate 1, the transparent shell 3 is sequentially divided into the safety cavity 4, the warning cavity 5 and the dangerous cavity 6 from bottom to top, the water depth of the safety cavity 4 is smaller than five meters, the water depth of the warning cavity 5 is greater than five meters of zero and smaller than one five meters, and the water depth of the dangerous cavity 6 is greater than one five meters.

The inside fixedly connected with green lamp 7 in safe chamber 4, the inside fixedly connected with yellow lamp 8 in warning chamber 5, the inside fixedly connected with red lamp 9 in dangerous chamber 6, safe chamber 4, warning chamber 5, dangerous chamber 6 are inside all to be provided with perception subassembly 10, safe chamber 4 is corresponding with the position of green lamp 7, warning chamber 5 is corresponding with the position of yellow lamp 8, dangerous chamber 6 is corresponding with the position of red lamp 9.

The inside swing joint of safe chamber 4 is used for triggering the perception subassembly 10 of green lamp 7, the outside fixedly connected with depth square 11 of transparent shell 3, the outside sliding connection of transparent shell 3 has action cover 12, the outside fixedly connected with pilot pin 13 of action cover 12, the outside fixedly connected with floating plate 14 of action cover 12, the outside fixedly connected with buoyancy ball 15 of floating plate 14, the outside swing joint of buoyancy ball 15 has the loose joint subassembly 16 that is used for buoyancy ball 15 gas to supply, perception subassembly 10 includes square shell 101, contact 102, shell fragment 103, expansion plate 104, the inside fixedly connected with square shell 101 of safe chamber 4, the inside fixedly connected with contact 102 of square shell 101, the inside fixedly connected with shell fragment 103 of square shell 101, the inboard sliding connection of square shell 101 has expansion plate 104, expansion plate 104 and square shell 101 sliding seal connection, expansion plate 104 and the inboard sliding seal connection of transparent shell 3, the position of expansion plate 103 corresponds with expansion plate 104, the position of expansion plate 104 corresponds with contact 102.

The contact 102 in the safety cavity 4 is electrically connected with the green lamp 7, the contact 102 in the warning cavity 5 is electrically connected with the yellow lamp 8, the contact 102 in the dangerous cavity 6 is electrically connected with the red lamp 9, the contact 102 is triggered, and the internal circuit is conducted, so that the green lamp 7 or the yellow lamp 8 or the red lamp 9 at the corresponding position is electrified respectively.

The loose joint assembly 16 comprises an air pipe 161 and a sealing plug 162, the air pipe 161 is fixedly connected to the outside of the buoyancy ball 15, the sealing plug 162 is movably connected to the inner side of the air pipe 161, the position of the indicator 13 corresponds to that of the depth gauge 11, the buoyancy ball 15 corresponds to that of the floating plate 14, nitrogen is added into the buoyancy ball 15, the air pipe 161 is communicated with the inside of the buoyancy ball 15, and the sealing plug 162 is in threaded connection with the air pipe 161.

Through the inside safe chamber 4, warning chamber 5, dangerous chamber 6 that set up according to different water level depths of transparent shell 3, simultaneously at safe chamber 4, warning chamber 5, dangerous intracavity portion sets up automatic trigger contact 102 makes safe chamber 4 inside green lamp 7, warning chamber 5 inside yellow lamp 8, dangerous intracavity portion red lamp 9 slide by action sleeve 12 under buoyancy ball 15 drive along with the water level depth variation and trigger the luminous suggestion people of circular telegram, and then make reservoir water level monitoring according to water level depth grading safety suggestion people, guaranteed reservoir water level monitoring directly perceivedly clearly and fail safe nature.

Working principle: the user manually rotates the sealing plug 162 to open the air pipe 161 to add nitrogen into the buoyancy ball 15, and after adding, the user rotates the sealing plug 162 to close the air pipe 161 again, and the foot plate 1 is matched with the mounting hole 2 through bolts and is fixed on the reservoir water quantity monitoring mounting surface.

In use, the buoyancy ball 15 is driven by the buoyancy of water to move the floating plate 14, the floating plate 14 moves to drive the action sleeve 12 to slide outside the transparent shell 3, the action sleeve 12 slides to drive the indicator needle 13 to move to cooperate with the depth gauge 11 to measure the depth of the water level, when the action sleeve 12 slides to the safe cavity 4 area of the transparent shell 3, the action sleeve 12 slides to drive the telescopic plate 104 to slide inside the transparent shell 3 and the square shell 101, the telescopic plate 104 slides to compress the elastic sheet 103, the telescopic plate 104 slides to drive until contacting with the contact 102 inside the square shell 101 inside the safe cavity 4, so that the green lamp 7 inside the safe cavity 4 is electrified to emit green light to pass through the transparent shell 3 to prompt people, the water level of the reservoir is at the safe depth, the action sleeve 12 slides to reach the warning cavity 5 area in the same way, the telescopic plate 104 in the warning cavity 5 is driven to slide by the action sleeve 12 until the contact 102 is triggered, and then the yellow lamp 8 in the square shell 101 in the warning cavity 5 is electrified to emit light to prompt people, the reservoir water level is at the warning depth, the telescopic plate 104 in the safety cavity 4 is slid to reset and separate from the contact 102 under the action of the restoring force of the elastic sheet 103, the green lamp 7 stops emitting light, the action sleeve 12 slides to reach the dangerous cavity 6 area, the telescopic plate 104 in the dangerous cavity 6 is driven to slide by the action sleeve 12 until the contact 102 is triggered, and then the red lamp 9 in the square shell 101 in the dangerous cavity 6 is electrified to emit light to prompt people, the reservoir water level is at the dangerous depth, the telescopic plate 104 in the warning cavity 5 is slid to reset and separate from the contact 102 under the action of the restoring force of the elastic sheet 103, and the yellow lamp 8 stops emitting light.

Claims (7)

1. Reservoir safety monitoring device, including sole (1), its characterized in that: the utility model discloses a safety device for the foot plate of the automobile, which is characterized in that a mounting hole (2) is formed in the surface of the foot plate (1), a transparent shell (3) is fixedly connected with the outside of the foot plate (1), a safety cavity (4) is formed in the surface of the transparent shell (3), a warning cavity (5) is formed in the surface of the transparent shell (3), a dangerous cavity (6) is formed in the surface of the transparent shell (3), a green lamp (7) is fixedly connected with the inside of the safety cavity (4), a yellow lamp (8) is fixedly connected with the inside of the warning cavity (5), a red lamp (9) is fixedly connected with the inside of the dangerous cavity (6), the inside swing joint of safe chamber (4) is used for triggering perception subassembly (10) of green lamp (7), the outside fixedly connected with depth chi (11) of transparent shell (3), the outside sliding connection of transparent shell (3) has action cover (12), the outside fixedly connected with pilot pin (13) of action cover (12), the outside fixedly connected with floating plate (14) of action cover (12), the outside fixedly connected with buoyancy ball (15) of floating plate (14), the outside swing joint of buoyancy ball (15) has loose joint subassembly (16) that are used for buoyancy ball (15) gaseous supplementary.

2. A reservoir safety monitoring device as claimed in claim 1, wherein: the sensing assembly (10) comprises a square shell (101), contacts (102), elastic pieces (103) and a telescopic plate (104), wherein the square shell (101) is fixedly connected to the inside of the safety cavity (4), the contacts (102) are fixedly connected to the inside of the Fang Ke (101), the elastic pieces (103) are fixedly connected to the inside of the Fang Ke (101), the telescopic plate (104) is connected to the inner side of the Fang Ke (101) in a sliding mode, the movable joint assembly (16) comprises an air pipe (161) and a sealing plug (162), the air pipe (161) is fixedly connected to the outside of the buoyancy ball (15), and the sealing plug (162) is movably connected to the inner side of the air pipe (161).

3. A reservoir safety monitoring device as claimed in claim 1, wherein: the number of the mounting holes (2) is at least four, all the mounting holes (2) are symmetrically distributed on the surface of the foot plate (1), the transparent shell (3) is sequentially divided into a safety cavity (4), a warning cavity (5) and a dangerous cavity (6) from the bottom to the top, the safety cavity (4) corresponds to a water depth of less than five meters at zero point, the warning cavity (5) corresponds to a water depth of more than five meters at zero point and less than one point and five meters, and the dangerous cavity (6) corresponds to a water depth of more than one point and five meters.

4. A reservoir safety monitoring device as claimed in claim 1, wherein: the safety cavity (4), the warning cavity (5) and the dangerous cavity (6) are internally provided with sensing components (10), the safety cavity (4) corresponds to the position of the green lamp (7), the warning cavity (5) corresponds to the position of the yellow lamp (8), and the dangerous cavity (6) corresponds to the position of the red lamp (9).

5. A reservoir safety monitoring device as claimed in claim 2, wherein: the telescopic plate (104) is in sliding sealing connection with the square shell (101), the telescopic plate (104) is in sliding sealing connection with the inner side of the transparent shell (3), the elastic sheet (103) corresponds to the telescopic plate (104), and the telescopic plate (104) corresponds to the contact (102).

6. A reservoir safety monitoring device as claimed in claim 2, wherein: the contact (102) inside the safety cavity (4) is electrically connected with the green lamp (7), the contact (102) inside the warning cavity (5) is electrically connected with the yellow lamp (8), the contact (102) inside the dangerous cavity (6) is electrically connected with the red lamp (9), the contact (102) is triggered, the internal circuit of the contact is conducted, and then the green lamp (7) or the yellow lamp (8) or the red lamp (9) at the corresponding position are respectively electrified.

7. A reservoir safety monitoring device as claimed in claim 2, wherein: the indicator needle (13) corresponds to the position of the depth gauge (11), the buoyancy ball (15) corresponds to the position of the floating plate (14), nitrogen is added into the buoyancy ball (15), the air pipe (161) is communicated with the inside of the buoyancy ball (15), and the sealing plug (162) is connected with the air pipe (161) through threads.