CN220961558U - Channel water flow speed monitoring device - Google Patents

Abstract

The utility model discloses a channel water flow rate monitoring device, relates to the technical field of water flow rate monitoring devices, and aims to solve the problems that in the prior art, the current channel water flow rate monitoring device mainly utilizes radars to monitor the flow rate of water surface, and when a water body flows, the position flow rates of water depths are different, the flow rates of different water depths of a channel cannot be effectively monitored, and the using effect is poor. The water flow speed monitoring device comprises a water flow speed monitoring device, and is characterized in that one side of the water flow speed monitoring device is provided with a first monitoring screw, a second monitoring screw and a third monitoring screw respectively, the first monitoring screw, the second monitoring screw and the third monitoring screw are connected with the water flow speed monitoring device in a rotating mode through connecting shafts, the first monitoring screw, the second monitoring screw and the third monitoring screw are sequentially arranged from high to low, and the water flow speed monitoring device is internally provided with a first monitoring shaft, a second monitoring shaft and a third monitoring shaft respectively.

Description

Channel water flow speed monitoring device

Technical Field

The utility model relates to the technical field of water flow rate monitoring devices, in particular to a channel water flow rate monitoring device.

Background

The existing channel water flow rate monitoring device mainly adopts radar or ultrasonic waves to detect the surface of water flow, and only aims at the flow rate of the water surface;

For example, the application publication number is CN212159840U, a river water flow velocity monitoring device comprises a mounting plate, the upper end of the mounting plate is fixedly connected with a movable sleeve with adjustable height, the left outer wall of the movable sleeve is fixedly connected with a shell through a horizontal connecting rod, the lower end of the shell is fixedly connected with a fixed rod, the rod wall of the fixed rod is fixedly provided with a cleaning mechanism, the lower end of the fixed rod is rotationally connected with a monitoring device body through a damping rotating shaft, the front side wall of the monitoring device body is fixedly provided with a probe, and the rear side wall of the monitoring device body is fixedly provided with a guide mechanism;

The above-mentioned application not only can prevent that the floater on the surface of water from sheltering from the probe, influences the accuracy of monitoring, can make monitoring devices's probe face to rivers all the time under various installation angles moreover, has further increased the accuracy of monitoring, but the water is when flowing, and the position velocity of flow of each water depth is different, can not the different water depth's of effectual monitoring channel velocity of flow, and the result of use is not good, therefore market urgent need develop a channel water velocity of flow monitoring devices and help people to solve current problem.

Disclosure of utility model

The utility model aims to provide a channel water flow rate monitoring device, which aims to solve the problems that the current channel water flow rate monitoring device proposed in the background technology is mainly used for monitoring the flow rate of the water surface by using a radar, the position flow rates of all water depths are different when the water body flows, the flow rates of different water depths of a channel cannot be effectively monitored, and the using effect is poor.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a channel water flow rate monitoring devices, includes water flow rate monitoring devices, first monitoring screw, second monitoring screw and third monitoring screw are installed respectively to one side of water flow rate monitoring devices, and first monitoring screw, second monitoring screw and third monitoring screw all rotate with water flow rate monitoring devices through the connecting axle and be connected, first monitoring screw, second monitoring screw and third monitoring screw are set up from high to low in proper order.

Preferably, the first monitoring shaft, the second monitoring shaft and the third monitoring shaft are respectively arranged in the water flow rate monitoring device, the first monitoring shaft, the second monitoring shaft and the third monitoring shaft are rotationally connected with the water flow rate monitoring device through shaft seats, and the first rotating speed detecting device, the second rotating speed detecting device and the third rotating speed detecting device are respectively arranged in the water flow rate monitoring device.

Preferably, the first driven gear is installed to the one end of first monitoring axle, the second driven gear is installed to the one end of second monitoring axle, the third driven gear is installed to the one end of third monitoring axle, first transmission shaft, second transmission shaft and third transmission shaft are installed respectively to the inside of water velocity monitoring device.

Preferably, a first transmission gear and a second transmission gear are respectively installed at two ends of the first transmission shaft, the first transmission gear is connected with the first driven gear in a meshed mode, a first driving gear is arranged in the water flow rate monitoring device, the first driving gear is fixedly connected with the first monitoring propeller through a connecting shaft, and the first driving gear is connected with the second transmission gear in a meshed mode.

Preferably, a third transmission gear and a fifth transmission gear are respectively installed at two ends of the second transmission shaft, the third transmission gear is in meshed connection with the second driven gear, a second driving gear is arranged in the water flow rate monitoring device, the second driving gear is fixedly connected with the second monitoring propeller through a connecting shaft, and the second driving gear is in meshed connection with the fifth transmission gear.

Preferably, a fourth transmission gear and a sixth transmission gear are respectively installed at two ends of the third transmission shaft, the fourth transmission gear is in meshed connection with the third driven gear, a third driving gear is arranged in the water flow rate monitoring device, the third driving gear is fixedly connected with the third monitoring propeller through a connecting shaft, and the third driving gear is in meshed connection with the sixth transmission gear.

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

1. According to the utility model, through the arrangement of the first monitoring screw propeller, the second monitoring screw propeller and the third monitoring screw propeller, the first monitoring screw propeller, the second monitoring screw propeller and the third monitoring screw propeller are sequentially arranged from high to low, so that the longitudinal monitoring work can be carried out on the water flow condition of the channel, and the water flow speeds of different water depths can be independently monitored, thereby the water flow speed condition of the channel can be monitored in real time, and a better channel water flow speed monitoring effect is provided.

2. According to the utility model, through the arrangement of the first transmission shaft, the second transmission shaft and the third transmission shaft, the first transmission shaft, the second transmission shaft and the third transmission shaft are transmission mechanisms of the first monitoring screw propeller, the second monitoring screw propeller and the third monitoring screw propeller, and the transmission shafts are adopted for transmission, so that the power loss can be reduced, the response speed of power transmission can be improved, the water flow velocity can be measured more accurately, and the channel water flow velocity monitoring device is more reliable to use.

Drawings

FIG. 1 is a schematic diagram of the internal structure of a channel water flow rate monitoring device according to the present utility model;

FIG. 2 is an enlarged schematic view of the utility model at A;

FIG. 3 is an enlarged schematic view of the present utility model at B;

Fig. 4 is an enlarged schematic view of the present utility model at C.

In the figure: 1. a water flow rate monitoring device; 2. a first monitoring propeller; 3. a first monitoring shaft; 4. a second monitoring shaft; 5. a third monitoring shaft; 6. a first rotational speed detecting means; 7. a second rotation speed detecting device; 8. a third rotation speed detecting device; 9. a first drive shaft; 10. a first driven gear; 11. a first transmission gear; 12. a second transmission gear; 13. a first drive gear; 14. a second drive shaft; 15. a third drive shaft; 16. a third transmission gear; 17. a second driven gear; 18. a third driven gear; 19. a fourth transmission gear; 20. a second monitoring propeller; 21. a fifth transmission gear; 22. a second drive gear; 23. a third monitoring propeller; 24. a sixth transmission gear; 25. and a third drive gear.

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.

Referring to fig. 1-4, an embodiment of the present utility model is provided: the utility model provides a channel water flow rate monitoring devices, includes water flow rate monitoring devices 1, and first monitoring screw 2, second monitoring screw 20 and third monitoring screw 23 are installed respectively to one side of water flow rate monitoring devices 1, and first monitoring screw 2, second monitoring screw 20 and third monitoring screw 23 all rotate with water flow rate monitoring devices 1 through the connecting axle and are connected, and first monitoring screw 2, second monitoring screw 20 and third monitoring screw 23 set up from high to low in proper order.

When the intelligent monitoring system is used, through the arrangement of the first monitoring propeller 2, the second monitoring propeller 20 and the third monitoring propeller 23, the first monitoring propeller 2, the second monitoring propeller 20 and the third monitoring propeller 23 are sequentially arranged from high to low, so that longitudinal monitoring work can be carried out on the water flow condition of a channel, and the water flow speeds of different water depths can be independently monitored, so that the water flow speed condition of the channel can be monitored in real time, and a better channel water flow speed monitoring effect is provided.

Further, the inside of water flow rate monitoring device 1 is installed first monitoring axle 3, second monitoring axle 4 and third monitoring axle 5 respectively, and first monitoring axle 3, second monitoring axle 4 and third monitoring axle 5 all rotate with water flow rate monitoring device 1 through the axle bed and be connected, first rotation speed detection device 6 is installed respectively to the inside of water flow rate monitoring device 1, second rotation speed detection device 7 and third rotation speed detection device 8, first monitoring axle 3 rotates with first rotation speed detection device 6 to be connected, second monitoring axle 4 rotates with second rotation speed detection device 7 to be connected, third monitoring axle 5 rotates with third rotation speed detection device 8 to be connected, first rotation speed detection device 6, second rotation speed detection device 7 and third rotation speed detection device 8 all pass through fastening screw fixed connection with water flow rate monitoring device 1.

Further, first driven gear 10 is installed to the one end of first monitoring axle 3, second driven gear 17 is installed to the one end of second monitoring axle 4, third driven gear 18 is installed to the one end of third monitoring axle 5, first transmission shaft 9 is installed respectively to the inside of water flow rate monitoring device 1, second transmission shaft 14 and third transmission shaft 15, first driven gear 10 passes through fastening screw fixed connection with first monitoring axle 3, second driven gear 17 passes through fastening screw fixed connection with second monitoring axle 4, third driven gear 18 passes through fastening screw fixed connection with third monitoring axle 5, first transmission shaft 9, second transmission shaft 14 and third transmission shaft 15 all pass through the axle bed and rotate with water flow rate monitoring device 1 and be connected.

Further, a first transmission gear 11 and a second transmission gear 12 are respectively installed at two ends of the first transmission shaft 9, the first transmission gear 11 is in meshed connection with the first driven gear 10, a first driving gear 13 is arranged in the water flow rate monitoring device 1, the first driving gear 13 is fixedly connected with the first monitoring propeller 2 through a connecting shaft, the first driving gear 13 is in meshed connection with the second transmission gear 12, and the first transmission gear 11 and the second transmission gear 12 are fixedly connected with the first transmission shaft 9 through fastening screws.

Further, a third transmission gear 16 and a fifth transmission gear 21 are respectively installed at two ends of the second transmission shaft 14, the third transmission gear 16 is in meshed connection with the second driven gear 17, a second driving gear 22 is arranged in the water flow rate monitoring device 1, the second driving gear 22 is fixedly connected with the second monitoring propeller 20 through a connecting shaft, the second driving gear 22 is in meshed connection with the fifth transmission gear 21, and the third transmission gear 16 and the fifth transmission gear 21 are fixedly connected with the second transmission shaft 14 through fastening screws.

Further, a fourth transmission gear 19 and a sixth transmission gear 24 are respectively installed at two ends of the third transmission shaft 15, the fourth transmission gear 19 is in meshed connection with the third driven gear 18, a third driving gear 25 is arranged in the water flow rate monitoring device 1, the third driving gear 25 is fixedly connected with the third monitoring propeller 23 through a connecting shaft, the third driving gear 25 is in meshed connection with the sixth transmission gear 24, and the fourth transmission gear 19 and the sixth transmission gear 24 are fixedly connected with the third transmission shaft 15 through fastening screws.

Working principle: when the water flow speed monitoring device 1 is placed in water, the first monitoring screw 2 is located below the water surface, the depth is not too deep, the second monitoring screw 20 and the third monitoring screw 23 are located in the middle part and the lower part of the water respectively, the first monitoring screw 2, the second monitoring screw 20 and the third monitoring screw 23 are driven to rotate through the flow of water flow, the first monitoring screw 2 drives the first monitoring shaft 3 to rotate through the first driving gear 13, the second driving gear 12, the first transmission shaft 9, the first driving gear 11 and the first driven gear 10, the rotating speed of the first monitoring shaft 3 is monitored through the first rotating speed detecting device 6, the speed above the water flow is monitored, the second monitoring screw 20 drives the second monitoring shaft 4 to rotate through the second driving gear 22, the fifth driving gear 21, the second transmission shaft 14, the third driving gear 16 and the second driven gear 17, the rotating speed of the second monitoring shaft 4 is monitored by the second rotating speed detecting device 7, the flow speed of the middle part of the water flow is monitored, the third screw 23 drives the third monitoring shaft 5 to rotate through the third driving gear 25, the third driving gear 24, the third driven gear 15 and the third driven gear 18, the rotating speed of the third monitoring shaft 5 is monitored by the third rotating speed detecting device 5, and the rotating speed of the third driven gear 5 is monitored by the third rotating speed detecting device.

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 (6)

1. The utility model provides a channel water flow rate monitoring devices, includes water flow rate monitoring devices (1), its characterized in that: the water flow rate monitoring device is characterized in that one side of the water flow rate monitoring device (1) is provided with a first monitoring screw propeller (2), a second monitoring screw propeller (20) and a third monitoring screw propeller (23) respectively, the first monitoring screw propeller (2), the second monitoring screw propeller (20) and the third monitoring screw propeller (23) are all rotatably connected with the water flow rate monitoring device (1) through connecting shafts, and the first monitoring screw propeller (2), the second monitoring screw propeller (20) and the third monitoring screw propeller (23) are sequentially arranged from high to low.

2. A channel water flow rate monitoring device as claimed in claim 1, wherein: the inside of rivers speed monitoring device (1) is installed first monitoring axle (3), second monitoring axle (4) and third monitoring axle (5) respectively, and first monitoring axle (3), second monitoring axle (4) and third monitoring axle (5) all rotate with rivers speed monitoring device (1) through the axle bed and be connected, first rotational speed detection device (6), second rotational speed detection device (7) and third rotational speed detection device (8) are installed respectively to the inside of rivers speed monitoring device (1).

3. A channel water flow rate monitoring device as claimed in claim 2, wherein: first driven gear (10) are installed to the one end of first monitoring axle (3), second driven gear (17) are installed to the one end of second monitoring axle (4), third driven gear (18) are installed to the one end of third monitoring axle (5), first transmission shaft (9), second transmission shaft (14) and third transmission shaft (15) are installed respectively to the inside of rivers speed monitoring device (1).

4. A channel water flow rate monitoring device according to claim 3, characterized in that: the water flow speed monitoring device is characterized in that a first transmission gear (11) and a second transmission gear (12) are respectively arranged at two ends of the first transmission shaft (9), the first transmission gear (11) is connected with a first driven gear (10) in a meshed mode, a first driving gear (13) is arranged in the water flow speed monitoring device (1), the first driving gear (13) is fixedly connected with the first monitoring propeller (2) through a connecting shaft, and the first driving gear (13) is connected with the second transmission gear (12) in a meshed mode.

5. The channel water flow rate monitoring device of claim 4, wherein: the water flow speed monitoring device is characterized in that a third transmission gear (16) and a fifth transmission gear (21) are respectively arranged at two ends of the second transmission shaft (14), the third transmission gear (16) is connected with a second driven gear (17) in a meshed mode, a second driving gear (22) is arranged in the water flow speed monitoring device (1), the second driving gear (22) is fixedly connected with a second monitoring propeller (20) through a connecting shaft, and the second driving gear (22) is connected with the fifth transmission gear (21) in a meshed mode.

6. A channel water flow rate monitoring device as claimed in claim 5, wherein: the water flow speed monitoring device is characterized in that a fourth transmission gear (19) and a sixth transmission gear (24) are respectively arranged at two ends of the third transmission shaft (15), the fourth transmission gear (19) is connected with a third driven gear (18) in a meshed mode, a third driving gear (25) is arranged in the water flow speed monitoring device (1), the third driving gear (25) is fixedly connected with a third monitoring propeller (23) through a connecting shaft, and the third driving gear (25) is connected with the sixth transmission gear (24) in a meshed mode.