CN211425426U - Hydraulic engineering water regime measuring device based on building informatization - Google Patents

Abstract

The utility model discloses a hydraulic engineering regimen measuring device based on building informatization, a flat-topped house for current regimen monitoring, be equipped with roof clamp plate on the flat top in flat-topped house, it presss from both sides to be equipped with the G type on the both sides border around the roof clamp plate, roof clamp plate passes through the G type and presss from both sides and the flat top clamping together, roof clamp plate's up end central authorities are equipped with central authorities and bear the seat, central authorities bear the seat and go up the level and run through the slide bar, the front end of slide bar is equipped with the bearing board, be equipped with photovoltaic board and central authorities through the telescopic link on bearing board's the border and be equipped with the ultrasonic wave regimen monitor of wearing out downwards, ultrasonic wave regimen monitor and photovoltaic board electric connection just carry out data communication through the host computer in wireless network and the flat-. The utility model discloses a keep away from the bearing board of bungalow relatively for the ultrasonic wave regimen monitor can comparatively keep away from the bank and carry out water level monitoring, fixes the regimen monitor on the bank outside the bungalow relatively at present, monitors the surface of water fluctuation condition comparatively keeping away from the bank more easily.

Description

Hydraulic engineering water regime measuring device based on building informatization

Technical Field

The utility model relates to a hydraulic engineering regimen measuring technical field especially relates to a hydraulic engineering regimen measuring device based on building informatization.

Background

The hydrologic regime monitoring system is applicable to the hydrology department and carries out real-time supervision to hydrologic parameters such as river, lake, reservoir, channel and groundwater, and the monitoring content includes: water level, flow rate, rainfall (snow), evaporation, silt, slush, soil moisture, water quality, and the like. At present, in the water regime monitoring process of hydraulic engineering, a flat-topped house for water regime monitoring is generally constructed on the bank side, then a relevant water regime monitoring instrument is installed on the bank side outside the flat-topped house, and because of the bank side, the water level and the wave condition in the water regime parameters can not be accurately reflected, and based on the problem, the building informatization of the flat-topped house is combined, the water level and the wave condition monitoring based on the flat-topped house is organically realized, and the hydraulic engineering water regime measuring device based on the building informatization is realized.

SUMMERY OF THE UTILITY MODEL

To the problem that exists more than now, the utility model provides a hydraulic engineering regimen measuring device based on building informatization for through the bearing board of keeping away from the flat-topped house relatively, make ultrasonic wave regimen monitor can comparatively keep away from the bank and carry out water level monitoring, relatively current fixes the regimen monitor at the bank outside the flat-topped house, monitors the surface of water fluctuation condition comparatively keeping away from the bank more easily.

The technical scheme of the utility model lies in:

the utility model provides a hydraulic engineering water regime measuring device based on building informatization for a flat-topped house of the existing water regime monitoring, a roof pressing plate is arranged on the flat top of the flat-topped house, G-shaped clamps are arranged on the front and back edges of the roof pressing plate, the roof pressing plate is clamped with the flat top through the G-shaped clamps, a central bearing seat is arranged in the center of the upper end surface of the roof pressing plate, and a sliding rod horizontally penetrates through the central bearing seat;

the front end of the sliding rod extends forwards horizontally and is provided with a horizontally extending bearing plate, the bearing plate is of a rectangular plate-shaped structure, a photovoltaic plate is arranged above the bearing plate, four telescopic rods which are distributed in a rectangular shape are arranged between the photovoltaic plate and the bearing plate, the upper ends of the telescopic rods are hinged with the lower end face of the photovoltaic plate, and the inclination angle of the photovoltaic plate relative to the bearing plate is changed by adjusting bolts at the hinged position of the telescopic rods and the photovoltaic plate and the telescopic length of the telescopic rods so as to adapt to the inclination of the upper end face of the photovoltaic plate towards the south;

the rear end of the sliding rod extends horizontally backwards, the rear end of the sliding rod is provided with a steel cable drawing hole, and the sliding rod is drawn by a steel cable on the steel cable drawing hole system to move relative to the central bearing seat, so that the supporting plate can stretch forwards and backwards;

the central authorities of bearing board are equipped with ultrasonic wave regimen monitor, ultrasonic wave regimen monitor and photovoltaic board electric connection just carry out data communication through the host computer in wireless network and the flat-topped house, ultrasonic wave regimen monitor's detection end carries out water level monitoring down through the through-hole of bearing board central authorities, through keeping away from the bearing board in flat-topped house relatively for ultrasonic wave regimen monitor can comparatively keep away from the bank and carry out water level monitoring.

Furthermore, the rear end of the bearing plate is provided with a front joint head which is tightly nested at the front end of the sliding rod.

Furthermore, the G-shaped clamp comprises an edge buckling block and an upper jacking bolt, the edge buckling block is of an L-shaped plate-shaped structure with an opening facing the lower part of the roof pressing plate, the lower horizontal part of the edge buckling block penetrates through the upper jacking bolt in threaded connection, and the upper end of the upper jacking bolt is propped against the edge of the lower end face of the flat top.

Further, the central bearing seat comprises a fixing sleeve and a joint seat, the joint seat is fixedly arranged at the center of the upper end face of the bearing plate, the upper end of the joint seat is embedded into the upper end of the bearing plate, the joint seat is in threaded connection with a vertical screw rod, the upper end of the vertical screw rod is provided with the fixing sleeve, the fixing sleeve is of a cylindrical structure with a horizontal axis, a plurality of clamping strips are uniformly distributed on the inner wall of the fixing sleeve along the axis, a nesting groove extending along the axis is formed in the sliding rod in a corresponding mode, and the clamping strips are correspondingly clamped into the nesting groove, so that the sliding rod can.

Further, the rear end edge of the roof pressure plate penetrates through the center of the roof pressure plate and is in threaded connection with a long screw, and the upper end of the long screw is correspondingly embedded into the joint hole at the rear end of the sliding rod, so that the sliding rod is fastened relative to the roof pressure plate under the working condition of the ultrasonic regimen monitor.

Further, ultrasonic wave regimen monitor includes ultrasonic wave water level sensor, PLC controller, battery and rectifier transformer, photovoltaic board, rectifier transformer and battery, PLC controller and ultrasonic wave water level sensor be electric connection in proper order for the PLC controller receives the electric energy of photovoltaic board and controls ultrasonic wave water level sensor and detects the below water level of bearing board of a take-up platform, and will detect data and transmit the host computer.

The utility model discloses owing to adopted above-mentioned technique, make it compare specific positive beneficial effect with prior art and be:

the utility model discloses combine the structure of the existing flat-topped house of current water regime monitoring, for the convenience water regime monitoring, set up the bearing board that the flat-topped house was kept away from relatively to a cantilever on the flat top of flat-topped house for the water regime monitor can comparatively keep away from the bank and carry out water level monitoring, comparatively current fixes the water regime monitor at the bank outside the flat-topped house, monitors the water level condition and the undulant condition of surface of water wave comparatively keeping away from the bank more easily.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: 1-photovoltaic panel, 2-telescopic rod, 3-bearing plate, 4-front joint head, 5-sliding rod, 6-roof pressing plate, 7-flat top, 8-fixing sleeve, 9-drawing rod, 10-edge buckle block, 11-upper top bolt, 12-steel cable drawing hole, 13-long screw rod, 14-joint seat and 15-ultrasonic wave water condition monitor.

Detailed Description

The first embodiment is as follows:

as shown in the attached figure 1, the utility model provides a hydraulic engineering water regime measuring device based on building informatization, be used for the flat top 7 house of current water regime monitoring, be equipped with roof clamp plate 6 on the flat top 7 of flat top 7 house, be equipped with G type clamp on the both sides border around the roof clamp plate 6, G type clamp includes that border detains piece 10 and goes up top bolt 11, border detains piece 10 and is the L font platelike structure of opening towards roof clamp plate 6 below, the lower extreme horizontal part of border detains piece 10 runs through and threaded connection has last top bolt 11, the upper end roof of going up top bolt 11 is pushed up and is pressed in the lower terminal surface border department of flat top 7, roof clamp plate 6 is in the same place with flat top 7 clamp through G type clamp, the upper end center of roof clamp plate 6 is equipped with central bearing seat, central bearing seat includes fixed cover 8 and joint seat 14, joint seat 14 is fixed to be set up terminal surface center and the upper end embedding and threaded connection has vertical screw rod in layer, the upper end of the vertical screw is provided with a fixed sleeve 8, the fixed sleeve 8 is of a cylindrical structure with a horizontal axis, a plurality of clamping strips are uniformly distributed on the inner wall of the fixed sleeve 8 along the axis and penetrate through the fixed sleeve 5, nesting grooves extending along the axis are formed in the sliding rod 5 corresponding to the clamping strips, and the clamping strips are correspondingly clamped in the nesting grooves, so that the sliding rod 5 can only move back and forth relative to the fixed sleeve 8, and the situation that the bearing plate 3 is turned over under the rotation action of the sliding rod 5 to influence the normal work of the photovoltaic panel 1 and the ultrasonic water condition monitor 15 is avoided;

the front end of the sliding rod 5 extends forwards horizontally and is provided with a horizontally extending bearing plate 3, the rear end of the bearing plate 3 is provided with a front joint 4 which is tightly embedded at the front end of the sliding rod 5, the bearing plate 3 is of a rectangular plate-shaped structure, a photovoltaic panel 1 is arranged above the bearing plate 3, four telescopic rods 2 which are distributed in a rectangular shape are arranged between the photovoltaic panel 1 and the bearing plate 3, the upper ends of the telescopic rods 2 are hinged with the lower end face of the photovoltaic panel 1, and the inclination angle of the photovoltaic panel 1 relative to the bearing plate 3 is changed by adjusting bolts at the hinged part of the telescopic rods 2 and the photovoltaic panel 1 and the telescopic length of the telescopic rods 2 so as to adapt to the inclination of the upper end face of the photovoltaic panel;

the rear end of the sliding rod 5 extends horizontally backwards, the rear end is provided with a drawing rod 9, the drawing rod 9 is provided with a steel cable drawing hole 12, and the sliding rod 5 is drawn to move relative to the central bearing seat through a steel cable tied on the steel cable drawing hole 12, so that the supporting plate 3 can stretch forwards and backwards;

the center of the rear end edge of the roof pressure plate 6 is penetrated and connected with a long screw 13 in a threaded manner, and the upper end of the long screw 13 is correspondingly embedded into a joint hole at the rear end of the sliding rod 5, so that the sliding rod 5 is fastened relative to the roof pressure plate 6 under the working condition of the ultrasonic regimen monitor 15, namely the position of the sliding rod 5 relative to the flat roof 7 is fixed under the normal working condition of the ultrasonic regimen monitor 15;

the central authorities of bearing board 3 are equipped with ultrasonic wave regimen monitor 15, ultrasonic wave regimen monitor 15 includes ultrasonic wave water level sensor, the PLC controller, battery and rectifier transformer, photovoltaic board 1, rectifier transformer and battery, PLC controller and ultrasonic wave water level sensor be electric connection in proper order, make the PLC controller receive photovoltaic board 1's electric energy and control ultrasonic wave water level sensor and detect the below water level of bearing board 3 of a take the altitude, and will detect data and pass through wireless network transmission for the host computer in 7 rooms of flat top, ultrasonic wave regimen monitor 15's detection end carries out water level monitoring down through the through-hole of bearing board 3 central authorities, bearing board 3 through keeping away from 7 rooms of flat top relatively, make ultrasonic wave regimen monitor 15 can comparatively keep away from the bank and carry out water level monitoring.

And (3) description of working conditions: under the normal work of the ultrasonic water regime monitor 15, the ultrasonic water regime monitor 15 monitors the water level below the water level and the waves with large fluctuation, and transmits the monitoring data to a host in a flat-top 7 house through a PLC (programmable logic controller); under the condition of needing to be overhauled, the long screw 13 is rotated and contracted downwards, the upper end of the long screw 13 is separated from the joint hole at the rear end of the sliding rod 5, then the steel cable tied on the steel cable pulling hole 12 is pulled backwards, the sliding rod 5 moves backwards relative to the joint seat 14, the supporting plate 3 moves towards the flat top 7 of the flat top 7 room until the supporting plate reaches the flat top 7 of the flat top 7 room, so that the overhauling can be carried out on the flat top 7 room, the recovery is convenient, the reverse operation is similar, the steel cable is pulled forwards by bypassing the flat top 7 of the flat top 7 room, the telescopic rod 2 moves forwards until the ultrasonic water condition monitor 15 reaches a preset position, then the upper end of the long screw 13 is embedded into the joint hole, the ultrasonic water condition monitor 15 is suspended at a certain height, the height is based on the height of the flat top room, the height of the flat top room is fixed, the height of the flat top room is fixed relative to, therefore, the water level height can be obtained by subtracting the distance between the flat-topped house and the water bottom and the water surface detected by the ultrasonic water level sensor, and the water surface fluctuation condition is easy to reflect the instantaneous height change of the water surface detected by the ultrasonic water level sensor.

Claims (6)

1. The utility model provides a hydraulic engineering regimen measuring device based on building informatization for the one-storey house of current regimen monitoring, its characterized in that: a roof pressing plate is arranged on the flat top of the flat-topped house, G-shaped clamps are arranged on the front side edge and the rear side edge of the roof pressing plate, the roof pressing plate is clamped with the flat top through the G-shaped clamps, a central bearing seat is arranged in the center of the upper end face of the roof pressing plate, and a sliding rod horizontally penetrates through the central bearing seat;

the front end of the sliding rod extends forwards horizontally and is provided with a horizontally extending bearing plate, the bearing plate is of a rectangular plate-shaped structure, a photovoltaic plate is arranged above the bearing plate, four telescopic rods which are distributed in a rectangular shape are arranged between the photovoltaic plate and the bearing plate, the upper ends of the telescopic rods are hinged with the lower end face of the photovoltaic plate, and the inclination angle of the photovoltaic plate relative to the bearing plate is changed by adjusting bolts at the hinged position of the telescopic rods and the photovoltaic plate and the telescopic length of the telescopic rods so as to adapt to the inclination of the upper end face of the photovoltaic plate towards the south;

the rear end of the sliding rod extends horizontally backwards, the rear end of the sliding rod is provided with a steel cable drawing hole, and the sliding rod is drawn by a steel cable on the steel cable drawing hole system to move relative to the central bearing seat, so that the supporting plate can stretch forwards and backwards;

the central authorities of bearing board are equipped with ultrasonic wave regimen monitor, ultrasonic wave regimen monitor and photovoltaic board electric connection just carry out data communication through the host computer in wireless network and the flat-topped house, ultrasonic wave regimen monitor's detection end carries out water level monitoring down through the through-hole of bearing board central authorities, through keeping away from the bearing board in flat-topped house relatively for ultrasonic wave regimen monitor can comparatively keep away from the bank and carry out water level monitoring.

2. The hydraulic engineering water regime measuring device based on building informatization of claim 1, characterized in that: the rear end of the bearing plate is provided with a front joint head which is tightly embedded at the front end of the sliding rod.

3. The hydraulic engineering water regime measuring device based on building informatization of claim 2, characterized in that: the G-shaped clamp comprises an edge buckling block and an upper jacking bolt, the edge buckling block is of an L-shaped plate-shaped structure with an opening facing the lower part of the roof pressing plate, the lower horizontal part of the edge buckling block penetrates through and is in threaded connection with the upper jacking bolt, and the upper end of the upper jacking bolt is jacked at the edge of the lower end face of the flat top.

4. The hydraulic engineering water regime measuring device based on building informatization of claim 3, characterized in that: the central bearing seat comprises a fixing sleeve and a joint seat, the joint seat is fixedly arranged at the center of the upper end face of the bearing plate, the upper end of the joint seat is embedded into the center of the upper end face of the bearing plate, the joint seat is in threaded connection with a vertical screw rod, the upper end of the vertical screw rod is provided with the fixing sleeve, the fixing sleeve is of a cylindrical structure with the horizontal axis, a plurality of clamping strips are uniformly distributed on the inner wall of the fixing sleeve along the axis, the sliding rod is correspondingly provided with a nesting groove extending along the axis, and the clamping strips are correspondingly clamped into the nesting groove, so that the.

5. The hydraulic engineering water regime measuring device based on building informatization of claim 4, characterized in that: the rear end edge center of the roof pressing plate penetrates through and is in threaded connection with a long screw rod, and the upper end of the long screw rod is correspondingly embedded into a joint hole in the rear end of the sliding rod, so that the sliding rod is fastened relative to the roof pressing plate under the working condition of the ultrasonic wave water regime monitor.

6. The hydraulic engineering water regime measuring device based on building informatization of claim 5, characterized in that: the ultrasonic wave regimen monitor includes ultrasonic wave water level sensor, PLC controller, battery and rectifier transformer, photovoltaic board, rectifier transformer and battery, PLC controller and ultrasonic wave water level sensor be electric connection in proper order for the PLC controller receives the electric energy of photovoltaic board and controls ultrasonic wave water level sensor and detects the below water level of bearing board of a take-up platform of take-up platform, and will detect data and pass through wireless.

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