CN221004385U - Water conservancy monitoring device - Google Patents

Abstract

The utility model discloses a water conservancy monitoring device, in particular to the technical field of water conservancy monitoring, which comprises a linkage belt, wherein the upper surface of the linkage belt is fixedly connected with a concave hinging block, and the inner wall of the concave hinging block is provided with a linkage monitoring mechanism; the linkage detection mechanism comprises a rotating shaft arranged on the inner wall of the concave hinging block, and one end part of the rotating shaft is fixedly connected with a rotating sleeve support. According to the utility model, the linkage monitoring mechanism is arranged, the rotating sleeve support drives the rotating shaft rod to enable the floating roller to roll rightwards along the inclined plane of the hydraulic dyke, the rotating sleeve support enables the rotating shaft to rotate upwards in the concave hinging block, the first monitoring camera and the second monitoring camera can not only see the water level at the red water line identification depth value, but also can inspect and monitor the cracks on the inclined plane of the hydraulic dyke, the positions of the cracks are reinforced and repaired in time, and the hydraulic monitoring effect is better.

Description

Water conservancy monitoring device

Technical Field

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

Background

According to the water conservancy monitoring device disclosed in the utility model patent of patent publication number CN213777068U, the water conservancy monitoring device is mainly fixed on a river beach through a support, a transverse support rod extends out of the support, monitoring equipment is fixed on the support rod, the device is convenient to install and good in stability, however, the support rod is fixedly connected with the support, the monitoring equipment is generally difficult to maintain, maintenance can only be carried out by a maintenance staff through a ladder when maintenance is needed, the maintenance difficulty is high, and the water conservancy monitoring device is extremely inconvenient, so that the maintenance can be conveniently carried out; the inner part of the bracket is welded through a bearing seat; a lightning rod is arranged at the top end of the bracket; an electric cabinet is fixedly arranged at the lower part of the bracket; the support cross rod is provided with a support plate, the support plate is provided with a plurality of tightening rods, the tightening rods are respectively provided with a water level detector and a video monitoring head, the maintenance is convenient, and the functions can be expanded according to different monitoring requirements; however, the water conservancy monitoring device has the following defects;

this water conservancy monitoring device is when using, because it is fixed point position monitoring, can't know in case crack appears in water level rising dam inner wall position department, can not in time consolidate the gap, so water conservancy monitoring effect is relatively poor, needs provide a water conservancy monitoring device for this.

Disclosure of utility model

In order to overcome the defects in the prior art, the utility model provides a water conservancy monitoring device.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the water conservancy monitoring device comprises a linkage belt, wherein a concave hinging block is fixedly connected to the upper surface of the linkage belt, and a linkage monitoring mechanism is arranged on the inner wall of the concave hinging block;

The linkage detection mechanism comprises a rotating shaft arranged on the inner wall of the concave hinging block, a rotating sleeve joint support is fixedly connected to one end part of the rotating shaft, a first monitoring camera and a second monitoring camera are sequentially and obliquely penetrated from top to bottom on the upper surface of the rotating sleeve joint support, a floating roller is rotationally connected to the inner wall of the rotating sleeve joint support and near the bottom end position of the inner wall of the rotating sleeve joint support, and a rotating shaft rod is fixedly connected to one end part of the floating roller.

Preferably, the concave hinging block is rotationally connected with the rotating shaft, the rotating shaft and the concave hinging block are made of stainless steel materials, the first monitoring camera and the second monitoring camera are fixedly connected with the rotating sleeve support, the upper surfaces of the first monitoring camera and the second monitoring camera are arranged in parallel, and the rotating shaft rod is rotationally connected with the floating roller.

Preferably, the inner wall one side transmission of linkage belt is connected with the linkage belt pulley, just is close to its bottom position department at the outer wall of linkage belt pulley and rotates and be connected with the bearing collar, the inner wall opposite side transmission of linkage belt is connected with drive pulley, is connected with servo gear motor at the top coaxial transmission of drive pulley, the outer wall of drive pulley just is close to its bottom position department and rotates and be connected with the bearing collar, the outer wall fixedly connected with of bearing collar installs the ring that cup joints, it is equipped with the water conservancy dykes and dams to install one side of cup joints the ring, it is fixed through concrete placement between ring and the bearing collar all and the water conservancy dykes and dams, one side of servo gear motor just is close to its upper surface position department fixedly connected with switch.

Through adopting above-mentioned technical scheme, servo gear motor drives drive pulley corotation, drive pulley is at bearing collar steady spacing rotation, the installation cup joints the ring and plays the supporting role to the bearing collar simultaneously, drive pulley drives linkage belt transmission, linkage belt drives linkage belt pulley and is at the inside steady rotation of bearing collar, linkage belt drives the concave hinge piece and makes the axis of rotation right shift, the axis of rotation drives to rotate and cup joints the support right shift, it makes the floating roller roll along the slope of water conservancy dykes and dams to rotate to cup joint the support to rotate, when the floating roller runs into water conservancy dykes and dams inclined surface stone, the floating roller upwards can make the rotation cup joint the support and make the axis of rotation upwards rotate in the inside of concave hinge piece, make the rotation cup joint the support and realize floating, it drives the gap on the monitoring water conservancy dykes and dams to move to the inclined plane of water conservancy dykes and dams to rotate and cup joint the support and drive first monitoring camera and second monitoring camera.

Preferably, the top of linkage belt is equipped with turning extension board and transparent guard plate and slope extension board in proper order from bottom to top, at the top fixedly connected with water conservancy diversion hang plate of slope extension board, one side fixedly connected with arc transparent extension board of transparent guard plate, fixed connection between transparent guard plate and turning extension board and the slope extension board respectively, transparent guard plate and the transparent extension board upper surface of arc are all through polishing treatment.

Through adopting above-mentioned technical scheme, the water conservancy dykes and dams play the supporting role to transparent guard plate, can support the reposition of redundant personnel through the slope of slope extension board slope when outside rainwater is impacted to the water conservancy diversion hang plate on, and the rainwater on the transparent extension board of arc can realize the arc water conservancy diversion, and the turning extension board plays the reinforcement effect to transparent guard plate inner wall like this, avoids the rainwater to strike servo gear motor and drive pulley, causes rust corrosion damage.

The utility model has the technical effects and advantages that:

1. Through setting up the linkage monitoring mechanism, the linkage belt drives the concave hinge block and makes the axis of rotation move to the right, rotate and cup joint the support and drive the pivot pole and make the floating running roller roll to the right along the slope of water conservancy dykes and dams, when the floating running roller meets water conservancy dykes and dams inclined surface stone, rotate and cup joint the support and make the axis of rotation rotate upwards in concave hinge block inside, first monitoring camera and second monitoring camera not only can see the water level at red water line sign depth value, but also can carry out investigation and monitoring to the crack on the water conservancy dykes and dams inclined surface, in time consolidate and restore gap position, water conservancy monitoring effect is better;

2. The water conservancy dykes and dams play the supporting role to transparent guard plate, and outside rainwater can be through slope extension support reposition of redundant personnel when striking the water conservancy inclined plane on the board, and the turning extension board plays the reinforcement effect to transparent guard plate inner wall, avoids the rainwater to strike servo gear motor and drive pulley, reduces the rainwater and goes up rust effect to the corruption of drive pulley and bearing installation collar, improves detection device's durability.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a water conservancy monitoring device provided by the utility model.

Fig. 2 is a schematic diagram of a split structure of a water conservancy monitoring device according to the present utility model.

Fig. 3 is a schematic view of a partial structure of a joint between a bearing mounting ring and a linkage belt pulley in the water conservancy monitoring device.

Fig. 4 is a schematic view of a partial structure of a joint between a bearing mounting ring and a driving pulley in a water conservancy monitoring device according to the present utility model.

Fig. 5 is a schematic view of a joint between a corner support plate and a transparent protection plate in the water conservancy monitoring device.

The reference numerals are: 1. a linkage belt; 2. a female hinge block; 3. a rotating shaft; 4. rotating the sleeve joint support; 5. the first monitoring camera; 6. the second monitoring camera; 7. a floating roller; 8. rotating the shaft lever; 9. a linkage belt pulley; 10. a mounting ring is held; 11. a drive pulley; 12. a bearing mounting ring; 13. a servo gear motor; 14. installing a sleeve joint ring; 15. a switch; 16. water conservancy dykes and dams; 17. a transparent protection plate; 18. an inclined support plate; 19. a deflector inclined plate; 20. an arc-shaped transparent support plate; 21. corner support plates.

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.

1-5, Be provided with the linkage monitoring mechanism on this water conservancy monitoring device, the setting of linkage monitoring mechanism can make linkage belt 1 drive concave hinge piece 2 and make axis of rotation 3 move to the right, rotate and cup joint support 4 and drive rotation axostylus axostyle 8 and make floating roller 7 roll right along the slope of water conservancy dykes and dams 16, when floating roller 7 runs into water conservancy dykes and dams 16 incline face stone, rotate and cup joint support 4 and make axis of rotation 3 upwards rotate in concave hinge piece 2 inside, first monitoring camera 5 and second monitoring camera 6 not only can see the water level and at red water line sign depth value, and can check the monitoring to the crack on the inclined plane of water conservancy dykes and dams 16, in time consolidate the restoration gap position, the water conservancy monitoring effect is better, the concrete structure setting of linkage monitoring mechanism is as follows:

In some embodiments, as shown in fig. 1-3, the linkage detection mechanism comprises a rotating shaft 3 arranged on the inner wall of the concave hinging block 2, one end part of the rotating shaft 3 is fixedly connected with a rotating sleeve support 4, the upper surface of the rotating sleeve support 4 is sequentially and obliquely penetrated with a first monitoring camera 5 and a second monitoring camera 6 from top to bottom, the inner wall of the rotating sleeve support 4 is rotatably connected with a floating roller 7 near the bottom end position of the rotating sleeve support 4, and one end part of the floating roller 7 is fixedly connected with a rotating shaft lever 8;

According to the water conservancy monitoring device in the embodiment, the red water level line mark is attached to the inclined surface of the water conservancy dam 16, the switch 15 is pressed to supply power to the servo gear motor 13, the servo gear motor 13 drives the driving belt pulley 11 to rotate positively, the driving belt pulley 11 is stable and stably and limited to rotate on the bearing mounting ring 12, the mounting sleeve ring 14 plays a supporting role on the bearing mounting ring 12, the driving belt pulley 11 drives the linkage belt 1 to drive the linkage belt pulley 9 to stably rotate inside the bearing mounting ring 10, the linkage belt 1 drives the concave hinging block 2 to enable the rotating shaft 3 to move rightwards, the rotating shaft 3 drives the rotating sleeve support 4 to move rightwards, the rotating sleeve support 4 drives the rotating shaft rod 8 to enable the floating roller 7 to roll rightwards along the water conservancy dam 16, when the floating roller 7 encounters the inclined surface stone of the water conservancy dam 16, the floating roller 7 upwards enables the rotating sleeve support 4 to enable the rotating shaft 3 to rotate upwards inside the concave hinging block 2, the rotating sleeve support 4 is enabled to float upwards, the rotating sleeve support 4 drives the first monitoring camera 5 and the second monitoring camera 6 to move on the inclined surface of the water conservancy dam 16, the first monitoring camera 5 and the second monitoring camera 6 can only monitor the water conservancy dam 16, and the water conservancy dam 16 is enabled to be well in the crack to be repaired, and the water conservancy dam 16 is required to be well in the water conservancy dam water level line crack.

In some embodiments, as shown in fig. 2-4, a linkage belt pulley 9 is in transmission connection with one side of the inner wall of the linkage belt pulley 1, a bearing installation ring 10 is in rotation connection with the outer wall of the linkage belt pulley 9 and is close to the bottom end position of the linkage belt pulley, a driving belt pulley 11 is in transmission connection with the other side of the inner wall of the linkage belt 1, a servo gear motor 13 is in coaxial transmission connection with the top end of the driving belt pulley 11, a bearing installation ring 12 is in rotation connection with the outer wall of the driving belt pulley 11 and is close to the bottom end position of the driving belt pulley 11, so that the servo gear motor 13 supplies power, the servo gear motor 13 drives the driving belt pulley 11 to positively rotate, the driving belt pulley 11 stably and stably rotates on the bearing installation ring 12, meanwhile, the linkage belt pulley 1 drives the linkage belt pulley 9 to stably rotate in the bearing installation ring 10, a driving effect is conveniently realized on the linkage belt pulley 1, a mounting sleeve ring 14 is fixedly connected with the outer wall of the bearing installation ring 12, a hydraulic dykes 16 is arranged on one side of the mounting sleeve ring 14, the mounting ring 14 and the bearing installation ring 10 is fixedly connected with the hydraulic dykes 16 through concrete pouring, so that the servo gear motor 13 is fixedly supplied with one side, and is close to the position of a monitoring gear motor 15 on the surface, which is fixedly connected with a monitoring gear motor 15, so that the monitoring camera head is fixedly connected with the monitoring gear 15, and is in order to carry out monitoring and positively-monitored by the monitoring camera head 15, and the movement of the camera head is carried out by the monitoring and the camera head is monitored by the monitoring and the camera head is 13.

In some embodiments, as shown in fig. 1-5, a corner support plate 21, a transparent protection plate 17 and an inclined support plate 18 are sequentially arranged above the linkage belt 1 from bottom to top, a diversion inclined plate 19 is fixedly connected to the top end of the inclined support plate 18, an arc-shaped transparent support plate 20 is fixedly connected to one side of the transparent protection plate 17, the transparent protection plate 17 is respectively and fixedly connected with the corner support plate 21 and the inclined support plate 18, and the upper surfaces of the transparent protection plate 17 and the arc-shaped transparent support plate 20 are subjected to polishing treatment;

According to the upper structure, when the water conservancy dykes and dams 16 play a supporting role to transparent guard plate 17, outside rainwater can be shunted through the slope support of slope extension board 18 when striking on the water conservancy diversion hang plate 19, and the rainwater on the arc transparent extension board 20 can realize the arc water conservancy diversion, like this turning extension board 21 play the reinforcement effect to transparent guard plate 17 inner wall, avoid the rainwater to strike servo gear motor 13 and drive pulley 11 to the rainwater plays the water conservancy diversion effect.

The details not described in detail in the specification belong to the prior art known to those skilled in the art, and model parameters of each electric appliance are not specifically limited and can be determined by using conventional equipment.

Finally: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (7)

1. The utility model provides a water conservancy monitoring device, includes linkage belt (1), the last surface fixedly connected with spill hinge piece (2) of linkage belt (1), its characterized in that: the inner wall of the concave hinging block (2) is provided with a linkage monitoring mechanism;

The linkage monitoring mechanism comprises a rotating shaft (3) arranged on the inner wall of a concave hinging block (2), a rotating sleeve joint support (4) is fixedly connected to one end part of the rotating shaft (3), a first monitoring camera (5) and a second monitoring camera (6) are sequentially and obliquely penetrated from top to bottom on the upper surface of the rotating sleeve joint support (4), a floating roller (7) is rotationally connected to the inner wall of the rotating sleeve joint support (4) and near the bottom end position of the inner wall, and a rotating shaft lever (8) is fixedly connected to one end part of the floating roller (7).

2. A water conservancy monitoring device according to claim 1, wherein: the concave hinging block (2) is rotationally connected with the rotating shaft (3), and the rotating shaft (3) and the concave hinging block (2) are made of stainless steel materials.

3. A water conservancy monitoring device according to claim 1, wherein: the device is characterized in that the first monitoring camera (5) and the second monitoring camera (6) are fixedly connected with the rotating sleeve joint support (4), the first monitoring camera (5) and the upper surface of the second monitoring camera (6) are arranged in parallel, and the rotating shaft rod (8) is connected with the floating roller (7) in a rotating mode.

4. A water conservancy monitoring device according to claim 1, wherein: the novel belt conveyor is characterized in that a linkage belt pulley (9) is connected to one side of the inner wall of the linkage belt (1) in a transmission manner, a bearing mounting ring (10) is rotatably connected to the outer wall of the linkage belt pulley (9) and close to the bottom end of the linkage belt pulley, a driving belt pulley (11) is connected to the other side of the inner wall of the linkage belt (1) in a transmission manner, a servo gear motor (13) is connected to the top end of the driving belt pulley (11) in a coaxial transmission manner, and a bearing mounting ring (12) is rotatably connected to the outer wall of the driving belt pulley (11) and close to the bottom end of the driving belt pulley.

5. The water conservancy monitoring device of claim 4, wherein: the outer wall fixedly connected with installation of bearing collar (12) cup joints ring (14), installation cup joints ring (14) one side and is equipped with water conservancy dykes and dams (16), it is fixed through concrete placement between installation cup joints ring (14) and the bearing collar (10) and water conservancy dykes and dams (16), one side of servo gear motor (13) and be close to its upper surface position department fixedly connected with switch (15).

6. A water conservancy monitoring device according to claim 1, wherein: the upper part of the linkage belt (1) is sequentially provided with a corner support plate (21), a transparent protection plate (17) and an inclined support plate (18) from bottom to top, the top end of the inclined support plate (18) is fixedly connected with a diversion inclined plate (19), and one side of the transparent protection plate (17) is fixedly connected with an arc-shaped transparent support plate (20).

7. The water conservancy monitoring device of claim 6, wherein: the transparent protection plate (17) is fixedly connected with the corner support plate (21) and the inclined support plate (18) respectively, and the upper surfaces of the transparent protection plate (17) and the arc-shaped transparent support plate (20) are subjected to polishing treatment.