CN216433180U - Water level monitoring equipment for hydraulic engineering - Google Patents

Abstract

The utility model discloses a water level monitoring facilities for hydraulic engineering belongs to the wall and cleans technical field. The utility model provides a water level monitoring facilities for hydraulic engineering, including the dead lever, the dead lever outer wall is symmetrical structure and has seted up two guide slots, the inside guide shoe that is equipped with of guide slot, the dead lever outside is equipped with the ring piece, the ring piece outer wall is the symmetry and is equipped with two floats, breach is seted up to dead lever one end, the inside movable rod that is equipped with of dead lever, the inside cavity that is equipped with of movable rod, the spout has been seted up to the dead lever upper end, the inside slider that is equipped with of spout, slider one end is equipped with spring A, dead lever upper end one side is equipped with the dog, the inside one side of movable rod is equipped with the closing plate, closing plate upper end one side is equipped with the poker rod, poker rod one end is equipped with spring B, movable rod one end is equipped with the stopper. The utility model discloses a thereby the movable rod that sets up can learn the thickness of silt in the river course through the height of observing silt in the cavity after taking out it to the position of cooperation ring piece can learn the actual water level height in the river course.

Description

Water level monitoring equipment for hydraulic engineering

Technical Field

The utility model relates to a wall cleans technical field, and more specifically says, relates to a water level monitoring facilities for hydraulic engineering.

Background

Reservoirs are generally defined as "water conservancy structures that store and condition water for flood containment and that can be used for irrigation, power generation, flood control and fish farming. "it refers to an artificial lake formed by building a barrage at the throat of a mountain ditch or river. After the reservoir is built, the functions of flood control, water storage irrigation, water supply, power generation, fish culture and the like can be realized. Sometimes natural lakes are also called reservoirs (natural reservoirs). The size of the reservoir is generally divided into small, medium and large sizes according to the size of the reservoir capacity. The reservoir is built in many places in China, the water level of the reservoir changes along with the change of seasons, and therefore many places of the reservoir dynamically build hydrological monitoring stations for detecting the reservoir, however, the hydrological monitoring stations are high in cost and troublesome to build, and sometimes monitoring is inaccurate.

Although the device has more beneficial effects, the following problems still exist: although the device can detect the water level in the use, be not convenient for detect the degree of depth of silt in the water, along with time lapse silt is more and more, does not possess the representativeness through observing the water level, is difficult to learn the discharge in the river course.

In view of this, we propose a water level monitoring device for hydraulic engineering.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

An object of the utility model is to provide a water level monitoring facilities for hydraulic engineering to solve the problem that proposes in the above-mentioned background art.

2. Technical scheme

The utility model provides a water level monitoring facilities for hydraulic engineering, includes the dead lever, the dead lever outer wall is symmetrical structure and has seted up two guide slots, the inside guide shoe that is equipped with of guide slot, the dead lever outside is equipped with the ring piece, the ring piece outer wall is the symmetry and is equipped with two floats, the breach has been seted up to dead lever one end, the inside movable rod that is equipped with of dead lever, the inside cavity that is equipped with of movable rod, the spout has been seted up to the dead lever upper end, the inside slider that is equipped with of spout, slider one end is equipped with spring A, dead lever upper end one side is equipped with the dog, the inside one side of movable rod is equipped with the closing plate, closing plate upper end one side is equipped with the poker rod, poker rod one end is equipped with spring B, movable rod one end is equipped with the stopper.

Preferably, the guide block is connected with the guide groove in a sliding mode, and the guide block is fixedly connected with the inner wall of the ring block.

Preferably, one end of the cavity is communicated with the notch, and the outer wall of the movable rod is in sliding contact with the inner wall of the fixed rod.

Preferably, slider and spout sliding connection, spring A end and spout one end fixed connection, slider one end is the slope column structure, slider one end and stopper outer wall extrusion contact.

Preferably, one end of the spring B is fixedly connected with one end of the upper side of the movable rod, the outer wall of the sealing plate is in sliding connection with the inner wall of the cavity, and the poke rod is in pressing contact with the stop block.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages of:

1. the utility model discloses a thereby the movable rod that sets up can learn the thickness of silt in the river course through the height of observing silt in the cavity after taking out it to the position of cooperation ring piece can learn the actual water level height in the river course.

2. The utility model discloses a slider that sets up can press from both sides the stopper tightly under spring A's effect, and then can avoid the movable rod to rotate in the dead lever is inside to lead to the position of cavity and breach not to correspond, and spring B through setting can drive the closing plate automatically and seal the cavity after the movable rod rotates.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a guide block of the present invention;

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

FIG. 4 is a schematic structural view of the cavity portion of the present invention;

the reference numbers in the figures illustrate: 1. fixing the rod; 2. a guide groove; 3. a guide block; 4. a ring block; 5. floating; 6. a notch; 7. a movable rod; 8. a cavity; 9. a chute; 10. a slider; 11. a spring A; 12. a stopper; 13. a sealing plate; 14. a poke rod; 15. a spring B; 16. and a limiting block.

Detailed Description

Referring to fig. 1-4, the present invention provides a technical solution:

the utility model provides a water level monitoring facilities for hydraulic engineering, including dead lever 1, 1 outer wall of dead lever is symmetrical structure and has seted up two guide slots 2, 2 inside guide shoes 3 that are equipped with of guide slot, 1 outside of dead lever is equipped with ring 4, 4 outer walls of ring are the symmetry and are equipped with two cursories 5, breach 6 has been seted up to 1 one end of dead lever, 1 inside movable rod 7 that is equipped with of dead lever, 7 inside cavity 8 that is equipped with of movable rod, spout 9 has been seted up to 1 upper end of dead lever, the inside slider 10 that is equipped with of spout 9, 10 one end of slider is equipped with spring A11, 1 upper end one side of dead lever is equipped with dog 12, 7 inside one side of movable rod is equipped with closing plate 13, closing plate 13 upper end one side is equipped with poker 14, poker 14 one end is equipped with spring B15, 7 one end of movable rod is equipped with stopper 16.

The outer walls of the fixed rod 1 and the movable rod 7 are provided with scale marks.

Specifically, the guide block 3 is slidably connected with the guide groove 2, and the guide block 3 is fixedly connected with the inner wall of the ring block 4.

The ring block 4 can be conveniently moved by the arranged guide block 3 and the guide groove 2.

Furthermore, one end of the cavity 8 is communicated with the notch 6, and the outer wall of the movable rod 7 is in sliding contact with the inner wall of the fixed rod 1.

Still further, slider 10 and spout 9 sliding connection, spring A11 end and spout 9 one end fixed connection, slider 10 one end is the slope column structure, slider 10 one end and 16 outer walls extrusion contact of stopper.

Through the slider 10 and the spout 9 that set up can make the movable rod 7 fixed inside dead lever 1 under the effect of spring A11, and then avoid movable rod 7 to be rotated by water impact in dead lever 1 and lead to breach 6 position and cavity 8 position to mismatch.

Furthermore, one end of the spring B15 is fixedly connected with one end of the upper side of the movable rod 7, the outer wall of the sealing plate 13 is in sliding connection with the inner wall of the cavity 8, and the poke rod 14 is in pressing contact with the stop 12.

Can seal cavity 8 when taking out movable rod 7 through the closing plate 13 that sets up under spring B15's effect, and then be convenient for the staff observes the height of its inside silt to can avoid the silt in the cavity 8 to flow, be convenient for sample silt, closing plate 13 is made for transparent material.

The working principle is as follows: when the device is required to work, the fixed rod 1 is fixed at the lower end inside a river channel, then the buoy 5 can rise under the action of water, the buoy 5 can drive the ring block 4 to rise along the direction of the guide groove 2 under the action of the guide block 3 after rising, at the moment, a worker can know the height of a water level by observing the positions of the ring block 4 and the fixed rod 1, when needing to know the depth of sludge in the river channel, the movable rod 7 is rotated to enable the relative position of one side of the cavity 8 and the notch 6 to deviate, then the movable rod 7 is pulled upwards to take out the movable rod 7, after the movable rod 7 is rotated, the poking rod 14 can drive the sealing plate 13 to rotate under the action of the spring B15, so that the cavity 8 is sealed, when the movable rod 7 is taken out, the worker observes the height of the sludge in the movable rod 7 and then can judge the depth of the sludge in the river channel, thereby judge discharge to the staff can take out the silt of taking out and detect it, later with activity pole 7 intubate dead lever 1 inside again, and make poker rod 14 be located dog 12 left side, make stopper 16 be located slider 10 and spout 9 middle part, and then make cavity 8 and breach 6 intercommunication.

Claims (5)

1. The utility model provides a water level monitoring facilities for hydraulic engineering, includes dead lever (1), its characterized in that: the outer wall of the fixed rod (1) is of a symmetrical structure and is provided with two guide grooves (2), a guide block (3) is arranged inside the guide grooves (2), a ring block (4) is arranged outside the fixed rod (1), two floats (5) are symmetrically arranged on the outer wall of the ring block (4), a notch (6) is formed in one end of the fixed rod (1), a movable rod (7) is arranged inside the fixed rod (1), a cavity (8) is formed in the movable rod (7), a sliding groove (9) is formed in the upper end of the fixed rod (1), a sliding block (10) is arranged inside the sliding groove (9), a spring A (11) is arranged at one end of the sliding block (10), a stop block (12) is arranged on one side of the upper end of the fixed rod (1), a sealing plate (13) is arranged on one side of the inside of the movable rod (7), a poking rod (14) is arranged on one side of the upper end of the sealing plate (13), and a spring B (15) is arranged at one end of the poking rod (14), one end of the movable rod (7) is provided with a limiting block (16).

2. The hydraulic engineering water level monitoring device according to claim 1, wherein: the guide block (3) is connected with the guide groove (2) in a sliding mode, and the guide block (3) is fixedly connected with the inner wall of the ring block (4).

3. The hydraulic engineering water level monitoring device according to claim 1, wherein: one end of the cavity (8) is communicated with the notch (6), and the outer wall of the movable rod (7) is in sliding contact with the inner wall of the fixed rod (1).

4. The hydraulic engineering water level monitoring device according to claim 1, wherein: slider (10) and spout (9) sliding connection, spring A (11) end and spout (9) one end fixed connection, slider (10) one end is slope column structure, slider (10) one end and stopper (16) outer wall extrusion contact.

5. The hydraulic engineering water level monitoring device according to claim 1, wherein: spring B (15) one end and movable rod (7) upside one end fixed connection, closing plate (13) outer wall and cavity (8) inner wall sliding connection, poker rod (14) and dog (12) extrusion contact.

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