CN219975910U - Anti-shake and recoverable cableway type radar water level gauge monitoring system - Google Patents

Abstract

The utility model relates to an anti-shake and recyclable cableway radar water level gauge monitoring system, which comprises two groups of fixed double-pole rods and cables, wherein one group of cables is a recyclable steel wire rope, and the recyclable steel wire rope extends from a winch to sequentially pass through a lower wheel of a fixed double-pulley of a fixed frame below the first group of fixed double-pole rods, an upper wheel of a fixed double-pulley of a fixed frame above the first group of fixed double-pole rods, a cableway trolley carrying a radar water level gauge, an upper wheel of a fixed double-pulley of a fixed frame above the second group of fixed double-pole rods, a hanging pulley connected with a plumb, a lower wheel of a fixed double-pulley of a fixed frame above the second group of fixed double-pole rods, a lower wheel of a fixed double-pulley of a fixed frame below the first group of fixed double-pole rods and returns to the winch. The utility model can realize the recovery, overhaul and maintenance of the equipment at any time, can prevent the equipment from swinging left and right and shaking in the annular movement process, and is favorable for positioning and stable state during sliding detection.

Description

Anti-shake and recoverable cableway type radar water level gauge monitoring system

Technical Field

The utility model relates to a cableway type radar water level gauge monitoring system, and belongs to the technical field of intelligent digital river and lake equipment monitoring.

Background

The intelligent digital river and lake equipment monitoring is to construct a digital hydraulic large platform taking hydraulic engineering management as a core by utilizing advanced and mature informatization technology and concept, so that a digital hydraulic construction mode and template engineering with distinct characteristics and special value are created, and the standardization and modernization of hydraulic engineering operation management are promoted through informatization, so that the intelligent digital river and lake equipment monitoring has important significance in safe operation.

Based on the new generation intelligent digital river and lake equipment monitoring, the service capability is comprehensively improved, various intelligent digital river and lake equipment monitoring unification and standardization management and various comprehensive and intelligent river and lake business applications are built, a digital river and lake equipment monitoring and monitoring sensing system with full engineering coverage and full business support is required to be built, and a standardized mode from sensing to network is built.

The existing river and lake monitoring equipment has a cableway type structure, but most of the river and lake monitoring equipment is provided with a trolley carrying the monitoring equipment on a main cable, the trolley cannot be ensured to be stable during movement, and the river and lake monitoring equipment is difficult to recover and overhaul even if faults exist. As in patent CN 207451494U, a novel cableway hydrowinch is disclosed, which comprises steel frame towers oppositely arranged at two sides of a river bank, and a machine room arranged corresponding to one side of the steel frame tower; the top end of the steel frame tower is provided with a signal lamp, and the bottom of the steel frame tower is arranged on a tower foundation; a main cable and a control cable are arranged between the two steel frame towers; a travelling crane is arranged on the main cable between the two fixed pulleys in a sliding way, and a hydrological instrument is arranged on the travelling crane; two auxiliary towers are arranged corresponding to each steel frame tower, and mooring ropes are arranged between the auxiliary towers and the steel frame towers and between the auxiliary towers and the main cable. The structure is difficult to ensure stable and accurate positioning control in actual operation, and particularly difficult to ensure normal operation under the condition that the monitoring environment is relatively complex and severe or suburban mains supply cannot be normally supplied.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides an anti-shake and recyclable cableway radar water level gauge monitoring system.

The technical scheme adopted by the utility model is as follows:

an anti-shake recyclable cableway radar water level gauge monitoring system comprises two groups of fixed double vertical rods and cables, wherein an upper fixing frame and a lower fixing frame are arranged between the two vertical rods of a first group of fixed double vertical rods, a fixed double pulley and two auxiliary pulleys are arranged on the upper fixing frame, a fixed double pulley is arranged on the lower fixing frame, an overhaul platform is arranged on the first group of fixed double vertical rods, a mechanical box body is fixed on one vertical rod of the overhaul platform, and a winch is arranged in the mechanical box body; an upper fixing frame and a lower fixing frame are arranged between the two vertical rods of the second group of fixed double vertical rods, a fixed double pulley and two auxiliary pulleys are arranged on the upper fixing frame, a hanging pulley is arranged below the fixed double pulley, a plumb is connected below the hanging pulley, and the other end of the plumb is fixed on the lower fixing frame; one group of cables is a recyclable steel wire rope, the recyclable steel wire rope stretches out from a winch and sequentially passes through the lower wheel of the fixed double pulley of the fixed frame below the first group of fixed double uprights, the upper wheel of the fixed double pulley of the fixed frame above the first group of fixed double uprights, the cableway trolley carrying the radar water level gauge, the upper wheel of the fixed double pulley of the fixed frame above the second group of fixed double uprights, the hanging pulley connected with the plumb, the lower wheel of the fixed double pulley of the fixed frame above the second group of fixed double uprights, the lower wheel of the fixed double pulley of the fixed frame above the first group of fixed double uprights, the upper wheel of the fixed double pulley of the fixed frame below the first group of fixed double uprights and returns to the winch, thereby forming a closed loop.

The other group of the cables is an auxiliary steel cable, and the auxiliary steel cable sequentially passes through one auxiliary pulley of the fixing frame above the first group of fixed double vertical rods, one side of the cableway trolley carrying the radar water level gauge, two auxiliary pulleys of the fixing frame above the second group of fixed double vertical rods, the other side of the cableway trolley carrying the radar water level gauge and the other auxiliary pulley of the fixing frame above the first group of fixed double vertical rods from the ground anchor.

The cableway trolley is a rectangular plate (preferably a stainless steel plate), the rectangular plate is fixedly connected with the recyclable steel wire rope (can be fixed through bolts and fixed iron sheets), the upper four corners of the rectangular plate are provided with mounting lugs respectively and fixedly provided with a balance pulley, an auxiliary steel wire rope passes through gaps between the mounting lugs and the rectangular plate, the two balance pulleys are used as a group, each group of balance pulleys is pressed on the auxiliary steel wire rope on the corresponding side, the rectangular plate is arranged below the auxiliary steel wire rope, the two sides of the auxiliary steel wire rope are parallel, and the balance pulleys can move on the auxiliary steel wire rope through the winding and unwinding of the recyclable steel wire rope. The auxiliary steel ropes are parallel and respectively fixed on the ground anchors and are immovable, so that the phenomenon of left-right swing and shaking of equipment in the annular movement process is mainly prevented.

The cableway trolley is provided with a mounting hole corresponding to the radar flowmeter.

The camera equipment and the solar panel are fixedly arranged at the upper ends of the first group of fixed double vertical rods.

The maintenance platform above install the automatically controlled cabinet body on another pole setting, the inside electrical component of putting of automatically controlled cabinet body for equipment transmission.

The recoverable steel wire rope is made to reciprocate through the rotation of a hand handle on the winch, so that the cableway trolley and the radar flowmeter equipment which are fixed on the recoverable steel wire rope in a linkage mode are used for measuring flow on the steel wire rope. When the radar flowmeter needs maintenance or equipment fails, a worker can climb to the maintenance platform and rotate the hand-operated handle of the winch, so that the cableway trolley on the recyclable steel wire rope and the radar flowmeter equipment are linked to slide back and forth, and the equipment slides to the maintenance platform end for maintenance.

The beneficial effects of the utility model are as follows:

(1) According to the utility model, the manual hand-operated mode is adopted to carry out the accurate measurement of the cyclic positioning control, and the design of the recyclable steel wire rope can realize the recycling, overhauling and maintenance of equipment at any time.

(2) The arrangement of the auxiliary steel cable can prevent the equipment from swinging left and right in the annular movement process and the shape of the cableway trolley and the structure of the four pulley sub-sides are beneficial to positioning and stable state during sliding detection.

(3) Under the condition that no commercial power exists in suburbs, solar power generation can be adopted to supply power to field equipment, the equipment design is safe and firm, convenience is provided for improving intelligent river and lake measurement work, and the method has excellent practicality and technical value for the accuracy of related measurement work.

Drawings

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

FIG. 2 is a schematic drawing of the threading direction of the recyclable steel wire rope in the present utility model;

FIG. 3 is a schematic drawing showing the threading direction of an auxiliary steel cable in the present utility model;

FIG. 4 is a first set of fixed double pole arrangements of the present utility model;

FIG. 5 is a second set of fixed double pole structures of the present utility model;

FIG. 6 is a cable run on the cableway car of the present utility model;

fig. 7 is a partial side view of fig. 6.

Wherein, 1, a first group of fixed double vertical rods, 2, a second group of fixed double vertical rods, 3, an electric control cabinet body, 4, a lower wheel of a fixed double pulley a, 5, a camera, 6, an upper wheel of a fixed double pulley b, 7, an auxiliary pulley a,8, an auxiliary pulley b,9, a solar panel, 10, an overhaul platform, 11, a winch, 12, an upper wheel of a fixed double pulley c, 13, an auxiliary pulley c,14, an auxiliary pulley d,15, fixed double pulley c lower wheel, 16, hanging pulley, 17, plumb, 18, fixed mount, 19, mechanical box, 20, recoverable wire rope, 21, ground anchor, 22, auxiliary steel cable, 23, balance pulley a,24, balance pulley b,25, balance pulley c,26, balance pulley d,27, cableway car, 28, fixed double pulley b lower wheel, 29, fixed double pulley a upper wheel, 30, fixed iron sheet.

Detailed Description

The technical scheme of the utility model is further explained below by combining specific embodiments and drawings.

Examples

An anti-shake recyclable cableway radar water level gauge monitoring system is shown in fig. 1, and comprises two groups of fixed double vertical rods and two groups of cables, wherein the fixed double vertical rods are positioned on opposite sides of a river and a lake, an upper fixing frame and a lower fixing frame 18 are arranged between the two vertical rods of a first group of fixed double vertical rods 1, a fixed double pulley b and two auxiliary pulleys are arranged on the upper fixing frame, a fixed double pulley a is arranged on the lower fixing frame, an overhaul platform 10 is arranged on the first group of fixed double vertical rods, a mechanical box 19 is fixed on one vertical rod of the overhaul platform 10, and a winch 11 is arranged inside the mechanical box 19; an upper fixing frame and a lower fixing frame are also arranged between the two vertical rods of the second group of fixed double vertical rods 2, a fixed double pulley c and two auxiliary pulleys are arranged on the upper fixing frame, a hanging pulley 16 is arranged below the fixed double pulley c, a plumb 17 is connected below the hanging pulley 16, and the other end of the plumb 17 is fixed on the lower fixing frame.

One of the two sets of cables is a recyclable steel wire rope 20, the other set is an auxiliary steel wire rope 22, the recyclable steel wire rope 20 (shown in figure 2) extends from the winch 11 to sequentially pass through the lower wheel 4 of the fixed double pulley a of the fixing frame below the first set of fixed double upright 1, the upper wheel 6 of the fixed double pulley b of the fixing frame above the first set of fixed double upright 1, the cableway trolley 27 carrying a radar level gauge, the upper wheel 12 of the fixed double pulley c of the fixing frame above the second set of fixed double upright 2, the hanging pulley 16 connected with the plumb 17, the lower wheel 15 of the fixed double pulley c of the fixing frame above the second set of fixed double upright 2, the lower wheel 28 of the fixed double pulley b of the fixing frame above the first set of fixed double upright 1, and the upper wheel 29 of the fixed double pulley a of the fixing frame below the second set of fixed double pulley b, and return to the winch 11, thereby forming a closed loop. An auxiliary steel cable 22 (as shown in figure 3) sequentially passes through an auxiliary pulley b 8 of the fixing frame on the first group of fixed double vertical rods 1 from the ground anchor 21, one side of the auxiliary pulley c13 and the auxiliary pulley d 14 of the fixing frame on the second group of fixed double vertical rods 2, which is provided with a balance pulley b 24 and a balance pulley d 26 of the cableway trolley carrying the radar water level gauge, one side of the auxiliary pulley c 25 and the balance pulley a 23 of the cableway trolley carrying the radar water level gauge, and the other auxiliary pulley a 7 of the fixing frame on the first group of fixed double vertical rods 1 returns to the ground anchor 21.

The upper ends of the first group of fixed double vertical rods 1 are fixedly provided with camera 5 equipment and a solar panel 9. An electric control cabinet body 3 is arranged on the other upright rod on the overhaul platform 10, and electric components are placed in the electric control cabinet body 3 for equipment transmission.

The cableway trolley 27 is a rectangular stainless steel plate, the upper four corners of the stainless steel plate are provided with mounting lugs respectively fixed with a balance pulley, a balance pulley a 23, a balance pulley b 24, a balance pulley c 25 and a balance pulley d 26, auxiliary steel cables pass through gaps between the mounting lugs and the stainless steel plate, the two balance pulleys are used as a group, each group of balance pulleys is pressed on the auxiliary steel cables on the corresponding side, the stainless steel plate is arranged below the auxiliary steel cables, two side auxiliary steel cables are parallel, and the balance pulleys can move on the auxiliary steel cables along the auxiliary steel cables through the retraction and the extension of the recyclable steel cables. The stainless steel plate is provided with a screw hole and a fixed iron sheet 30 at the middle position for fixing the penetrated recoverable steel wire rope. The auxiliary steel ropes are respectively fixed on the ground anchors and are immovable, and the auxiliary steel ropes mainly prevent the equipment from swinging left and right and shaking in the annular movement process. The cableway car 27 is provided with mounting holes corresponding to radar flowmeter.

During the measuring process, a worker climbs onto the maintenance platform, opens the winch protection structure-mechanical box body, and rotates the winch by hand shaking the handle; so that the recoverable wire rope on the hoist 11 returns the cableway car 27 to the hoist 11 along the pulley, forming a closed loop with the recoverable wire rope.

When the radar flowmeter needs maintenance or equipment fails, a worker can climb to the maintenance platform and rotate the hand-operated handle of the winch, so that the cableway trolley on the recyclable steel wire rope and the radar flowmeter equipment on the trolley are linked to slide back and forth, and the equipment slides to the maintenance platform end for maintenance.

The foregoing is a detailed description of the utility model with reference to specific embodiments, and the scope of the utility model is not limited thereto.

Claims (8)

1. An anti-shake recyclable cableway radar water level gauge monitoring system is characterized by comprising two groups of fixed double-upright rods and cables, wherein an upper fixing frame and a lower fixing frame are arranged between the two upright rods of the first group of fixed double-upright rods, a fixed double-pulley and two auxiliary pulleys are arranged on the upper fixing frame, a fixed double-pulley is arranged on the lower fixing frame, an overhaul platform is arranged on the first group of fixed double-upright rods, a mechanical box body is fixed on one upright rod of the overhaul platform, and a winch is arranged in the mechanical box body; an upper fixing frame and a lower fixing frame are arranged between the two vertical rods of the second group of fixed double vertical rods, a fixed double pulley and two auxiliary pulleys are arranged on the upper fixing frame, a hanging pulley is arranged below the fixed double pulley, a plumb is connected below the hanging pulley, and the other end of the plumb is fixed on the lower fixing frame; one group of cables is a recyclable steel wire rope, the recyclable steel wire rope stretches out from a winch and sequentially passes through the lower wheel of the fixed double pulley of the fixed frame below the first group of fixed double uprights, the upper wheel of the fixed double pulley of the fixed frame above the first group of fixed double uprights, the cableway trolley carrying the radar water level gauge, the upper wheel of the fixed double pulley of the fixed frame above the second group of fixed double uprights, the hanging pulley connected with the plumb, the lower wheel of the fixed double pulley of the fixed frame above the second group of fixed double uprights, the lower wheel of the fixed double pulley of the fixed frame above the first group of fixed double uprights, the upper wheel of the fixed double pulley of the fixed frame below the first group of fixed double uprights and returns to the winch, thereby forming a closed loop.

2. An anti-shake and recyclable cableway radar level gauge monitoring system according to claim 1, wherein the other group of cables is an auxiliary steel cable which sequentially passes from the ground anchor through one auxiliary pulley of the fixed mount above the first group of fixed double uprights, one side of the cableway trolley carrying the radar level gauge, two auxiliary pulleys of the fixed mount above the second group of fixed double uprights, the other side of the cableway trolley carrying the radar level gauge, and the other auxiliary pulley of the fixed mount above the first group of fixed double uprights, and returns to the ground anchor.

3. The anti-shake recyclable cableway radar water level gauge monitoring system according to claim 1, wherein the cableway trolley is a rectangular plate fixedly connected with the recyclable steel wire rope, and the upper four corners of the rectangular plate are provided with mounting lugs respectively fixed with a balance pulley.

4. An anti-shake and recyclable cableway radar level gauge monitoring system according to claim 3, wherein the auxiliary steel cables in the cableway trolley pass through gaps between the balance pulleys in the installation pair ears and the rectangular plates, the two balance pulleys are used as a group, each group of balance pulleys is pressed on the auxiliary steel cables on the corresponding sides, the rectangular plates are arranged below the auxiliary steel cables, the auxiliary steel cables on the two sides are parallel, and the balance pulleys move on the auxiliary steel cables along the auxiliary steel cables through the retraction of the recyclable steel cables.

5. An anti-shake and recyclable cableway radar level gauge monitoring system according to claim 3, wherein the rectangular plate is a stainless steel plate.

6. An anti-shake and recyclable cableway radar level gauge monitoring system according to claim 1, wherein the cableway trolley has mounting holes for the radar flow meters.

7. The anti-shake recyclable cableway radar level gauge monitoring system according to claim 1, wherein the camera device and the solar panel are fixedly arranged at the upper ends of the first group of fixed double upright rods.

8. The anti-shake recyclable cableway radar water level gauge monitoring system according to claim 1, wherein the electric control cabinet is mounted on the other upright post on the maintenance platform, and electric components are placed in the electric control cabinet for equipment transmission.