CN220436069U - Electric overhauling radar water level gauge mounting table - Google Patents

Abstract

The application is an electronic radar level gauge mount table that overhauls belongs to hydraulic engineering technical field, it includes stand and cantilever beam, the stand is equipped with first track along its length direction, it is equipped with first slide to slide on the first track, be equipped with first electronic clamping jaw on the first slide, the cantilever beam is equipped with the second track along its length direction, it is equipped with the second slide to slide on the second track, be equipped with the electronic clamping jaw of second on the second slide, first electronic clamping jaw and the electronic clamping jaw of second can the centre gripping radar level gauge, can directly remove the radar level gauge from the cantilever beam, the stand is close to the position on ground through above-mentioned scheme, the convenience overhauls the workman directly to it, need not climb to the platform, also need not build the platform, simultaneously also can avoid the cantilever beam to rotate relative stand, it is very convenient to operate.

Description

Electric overhauling radar water level gauge mounting table

Technical Field

The utility model relates to the technical field of hydraulic engineering, in particular to an electric overhaul radar water level gauge mounting table.

Background

Radar fluviographs are widely used because of their non-contact type. It is often mounted on a dedicated mounting table for water level acquisition. The current water level gauge mount pad generally includes stand and a cantilever beam, and the radar water level gauge is then fixed on the cantilever beam, and when using, the staff can regularly patrol the radar water level gauge and examine in order to guarantee its normal use. At present, the overhaul mode of the radar water level gauge on the cantilever beam mainly comprises the following two modes, namely, the cantilever beam and the upright post are arranged in a rotatable mode, the cantilever beam is rotated to be close to the bank of the river, and then the radar water level gauge is overhauled, however, the mode is inconvenient when the cantilever Liang Jiaochang is adopted; secondly, set up the track on the cantilever beam, set up the platform on the stand top, then electronic pulling radar fluviograph pulls to stand department and overhauls it, and this kind of mode can be with radar fluviograph to one side of stand, nevertheless need overhaul the workman go up to the platform on to overhaul radar fluviograph, overhaul and get up still inconvenient.

Disclosure of Invention

What have between cantilever beam and the stand of the mount pad of current radar fluviograph is rotatable mode, rotate through the cantilever beam and realize the radar fluviograph maintenance on it, this kind of mode rotates very inconvenient when cantilever Liang Jiaochang, what set up the track on the cantilever beam, utilize electronic pulling's mode to pull radar fluviograph to be close to stand department and overhaul it, this kind of mode still needs the maintenance workman to go up to platform department and overhauls radar fluviograph, it is also more inconvenient to overhaul, this application designs an electronic maintenance radar fluviograph mount pad, can solve above-mentioned problem, the technical scheme of its concrete adoption is:

the utility model provides an electronic radar water level gauge mount table that overhauls, includes stand and cantilever beam, and the stand is equipped with first track along its length direction, and it is equipped with first slide to slide on the first track, is equipped with first electronic clamping jaw on the first slide, and the cantilever beam is equipped with the second track along its length direction, slides on the second track and is equipped with the second slide, is equipped with the electronic clamping jaw of second on the second slide, and first electronic clamping jaw and the electronic clamping jaw of second can centre gripping radar water level gauge.

Preferably, a first rack is arranged on the first track along the length direction of the first track, a first motor is arranged on the first slide seat, an output shaft of the first motor is connected with a first bevel gear, the first bevel gear is meshed with a second bevel gear which is rotatably arranged on the first slide seat, a first gear is connected to a rotating shaft of the second bevel gear, and the first gear walks on the first rack to enable the first slide seat to slide on the first track.

Preferably, a second rack is arranged on the second track along the length direction of the second track, a second motor is arranged on the second sliding seat, a third bevel gear is connected to an output shaft of the second motor and meshed with a fourth bevel gear rotatably arranged on the second sliding seat, a second gear is connected to a rotating shaft of the fourth bevel gear, and the second gear walks on the second rack to enable the second sliding seat to slide on the second track.

Preferably, the first motor and the second motor are provided with signal receiving modules for receiving radio signals of an external remote controller, and the start and stop of the first motor and the second motor are controlled by the remote controller.

Preferably, the first electric clamping jaw and the second electric clamping jaw are respectively provided with a protective shell, a signal receiver is arranged in the protective shell and is respectively connected with the first electric clamping jaw and the second electric clamping jaw, the signal receiver is used for receiving radio signals of an external remote controller, and the first electric clamping jaw and the second electric clamping jaw are controlled to act through the remote controller.

Preferably, the clamping jaw clamping surface of the first electric clamping jaw and the clamping jaw clamping surface of the second electric clamping jaw are respectively provided with a clamping protrusion, the shell of the radar water level gauge is provided with a clamping groove, the radar water level gauge is clamped by the first electric clamping jaw and the second electric clamping jaw, and the clamping protrusions on the first electric clamping jaw and the second electric clamping jaw can be clamped into the clamping grooves of the radar water level gauge.

Preferably, the first magnet is arranged on the shell between the first electric clamping jaw and the corresponding two clamping jaws, the second magnet is arranged on the shell between the second electric clamping jaw and the corresponding two clamping jaws, and the iron sheet which can be adsorbed with the first magnet and the second magnet is arranged on the shell of the radar water level gauge.

According to the utility model, the rails are arranged on the upright posts and the cantilever beams, the electric clamping jaws are arranged on the rails, the radar water level gauge is clamped by the electric clamping jaws to realize the fixation and installation of the radar water level gauge, when the maintenance is needed, the radar water level gauge is driven to move towards the direction close to the upright posts by the electric clamping jaws on the remotely operated cantilever beams, then the radar water level gauge is clamped by the electric clamping jaws on the remotely operated upright posts, meanwhile, the radar water level gauge is released by the electric clamping jaws on the cantilever beams, the electric clamping jaws on the upright posts descend along the rails to drive the radar water level gauge to a position close to the ground, the maintenance worker can conveniently and directly maintain the radar water level gauge without climbing to a platform, the platform is not needed to be built, and the radar water level gauge is directly taken down from the electric clamping jaws once the maintenance is needed, and the replacement operation is simple.

Drawings

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

fig. 2 is a schematic structural view of the second sliding seat sliding on the second rack;

FIG. 3 is an enlarged view of the portion I of FIG. 1;

fig. 4 to 5 are schematic views showing the moving state of the radar level gauge when the radar level gauge is overhauled.

In the figure, 1, upright posts, 2, cantilever beams, 3, a first track, 4, a first rack, 5, a first sliding seat, 6, a first electric clamping jaw, 7, a first motor, 8, a first bevel gear, 9, a second bevel gear, 10, a first gear, 11, a radar fluviograph, 12, a clamping groove, 13, a second track, 14, a second electric clamping jaw, 15, a second motor, 16, a third bevel gear, 17, a fourth bevel gear, 18, a second gear, 19, a second rack, 20, a second sliding seat, 21 and a river channel.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present utility model will be described in detail below with reference to the following detailed description and the accompanying drawings.

In addition, in the description of the present utility model, it should be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1-3, an electric overhaul radar water level gauge mounting table comprises a stand column 1 and a cantilever beam 2, wherein the bottom end of the stand column 1 is generally anchored on the ground through cement mortar, and the cantilever beam 2 is horizontally welded or fixed on the top end of the stand column 1 through bolts. The stand 1 is equipped with first track 3 along its length direction, and the slip is equipped with first slide 5 on the first track 3, is equipped with first electronic clamping jaw 6 on the first slide 5, and cantilever beam 2 is equipped with second track 13 along its length direction, and the slip is equipped with second slide 20 on the second track 13, is equipped with second electronic clamping jaw 14 on the second slide 20, and first electronic clamping jaw 6 and second electronic clamping jaw 14 can centre gripping radar fluviograph.

When the radar water level gauge works normally, as shown in fig. 4-5, the radar water level gauge is clamped in the second electric clamping jaw 14 in a normal state, and the radar water level gauge is fixed on the cantilever beam 2 under the second electric clamping jaw 14 for water level monitoring; when the radar water level gauge needs to be overhauled, the second sliding seat 20 is remotely operated to slide on the second track 13 towards the direction close to the upright post 1, and after the second sliding seat slides to the position close to the upright post 1, the first electric clamping jaw 6 is remotely operated, so that the first electric clamping jaw 6 clamps the radar water level gauge, meanwhile, the second electric clamping jaw 14 is remotely operated, so that the radar water level gauge is released, then the first sliding seat 5 is remotely operated to descend on the first track 3, the first sliding seat is lowered to a position where an overhauling worker can reach to stop, and the overhauling worker can overhaul the radar water level gauge, or replace the radar water level gauge and the like. When the radar level gauge needs to be installed, the above operation is reversed.

It should be noted that, the radar water level gauge 11 in the present application adopts the existing radar water level gauge 11, and for the purpose of cooperation, the present application only sets up the clamping groove 12 on the shell of the existing radar water level gauge 11, and other structures of the radar water level gauge 11 are all of the prior art.

Further, how the first sliding seat 5 drives on the first track 3 is specifically that a first rack 4 is arranged on the first track 3 along the length direction of the first track, a first motor 7 is arranged on the first sliding seat 5, an output shaft of the first motor 7 is connected with a first bevel gear 8, the first bevel gear 8 is meshed with a second bevel gear 9 rotatably arranged on the first sliding seat 5, a first gear 10 is connected to a rotating shaft of the second bevel gear 9, and the first gear 10 walks on the first rack 4 to enable the first sliding seat 5 to slide on the first track 3.

How the second slide 20 is driven on the second rail 13, likewise, a second rack 19 is arranged on the second rail 13 along the length direction of the second rail, a second motor 15 is arranged on the second slide 20, an output shaft of the second motor 15 is connected with a third bevel gear 16, the third bevel gear 16 is meshed with a fourth bevel gear 17 rotatably arranged on the second slide 20, a second gear 18 is connected to a rotating shaft of the fourth bevel gear 17, and the second gear 18 walks on the second rack 19 to enable the second slide 20 to slide on the second rail 13.

Further, the above-mentioned remote operation is specifically that the first motor 7 and the second motor 15 are provided with signal receiving modules for receiving radio signals of an external remote controller, and the start and stop, the forward and reverse rotation, and the like of the first motor 7 and the second motor 15 are controlled by the remote controller.

Further, the first electric clamping jaw 6 and the second electric clamping jaw 14 are respectively provided with a protective shell, a signal receiver is arranged in the protective shell and is respectively connected with the first electric clamping jaw 6 and the second electric clamping jaw 14, the signal receiver is used for receiving radio signals of an external remote controller, and the actions of the first electric clamping jaw 6 and the second electric clamping jaw 14 are controlled through the remote controller.

Further, in order to avoid sliding of the first electric clamping jaw 6 and the second electric clamping jaw 14 when clamping the radar level gauge, clamping protrusions (not labeled in the figure because of superposition of the clamping protrusions and the clamping grooves) are respectively arranged on the clamping jaw clamping surface of the first electric clamping jaw 6 and the clamping jaw clamping surface of the second electric clamping jaw 14, clamping grooves 12 are arranged on the shell of the radar level gauge 11, four clamping grooves 12 are distributed on the four surfaces of the shell of the radar level gauge 11, the clamping grooves 12 of the two symmetrical surfaces are symmetrically arranged, and when the first electric clamping jaw 6 and the second electric clamping jaw 14 clamp the radar level gauge 11, the clamping protrusions on the clamping protrusions can be clamped into the clamping grooves 12 of the radar level gauge 11.

Further, in order to avoid the first electric clamping jaw 6 and the second electric clamping jaw 14 from malfunctioning, the radar water level gauge 11 cannot be clamped and falls into the river channel 21, the first magnet is arranged on the shell between the first electric clamping jaw 6 and the corresponding two clamping jaws, the second magnet is arranged on the shell between the second electric clamping jaw 14 and the corresponding two clamping jaws, the iron sheet which can be adsorbed by the first magnet and the second magnet is arranged on the shell of the radar water level gauge 11, and when the electric clamping jaws cannot be clamped, the iron sheet on the radar water level gauge 11 is adsorbed by the magnet, so that the radar water level gauge 11 can be prevented from falling into the river channel 21.

It should be noted that, the upright 1 and the cantilever beam 2 may be hollow, and the cable may be used to supply the electric energy to the whole installation platform.

The above embodiments are not to be taken as limiting the scope of the utility model, and any alternatives or modifications to the embodiments of the utility model will be apparent to those skilled in the art and fall within the scope of the utility model.

The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

Claims (7)

1. The utility model provides an electronic radar water level gauge mount table that overhauls, its characterized in that, includes stand and cantilever beam, the stand is equipped with first track along its length direction, it is equipped with first slide to slide on the first track, be equipped with first electronic clamping jaw on the first slide, the cantilever beam is equipped with the second track along its length direction, it is equipped with the second slide to slide on the second track, be equipped with the electronic clamping jaw of second on the second slide, first electronic clamping jaw with the electronic clamping jaw of second can centre gripping radar water level gauge.

2. The electric overhaul radar level gauge mounting table according to claim 1, wherein a first rack is arranged on the first rail along the length direction thereof, a first motor is arranged on the first slide seat, an output shaft of the first motor is connected with a first bevel gear, the first bevel gear is meshed with a second bevel gear rotatably arranged on the first slide seat, a first gear is connected to a rotating shaft of the second bevel gear, and the first gear walks on the first rack to enable the first slide seat to slide on the first rail.

3. The electric overhaul radar level gauge mounting table according to claim 2, wherein a second rack is arranged on the second rail along the length direction of the second rail, a second motor is arranged on the second slide seat, an output shaft of the second motor is connected with a third bevel gear, the third bevel gear is meshed with a fourth bevel gear rotatably arranged on the second slide seat, a second gear is connected to a rotating shaft of the fourth bevel gear, and the second gear walks on the second rack to enable the second slide seat to slide on the second rail.

4. A motorized access radar level gauge mounting according to claim 3, wherein said first motor and said second motor have signal receiving means for receiving radio signals from an external remote control, said first motor and said second motor being controlled by said remote control to be on and off.

5. The electric overhaul radar level gauge mounting table according to claim 1, wherein said first and second electric clamping jaws are respectively provided with a protective casing, a signal receiver is arranged in said protective casing, said signal receiver is respectively connected with said first and second electric clamping jaws, said signal receiver is used for receiving radio signals of an external remote controller, and said first and second electric clamping jaws are controlled to act through the remote controller.

6. The electric overhaul radar level gauge mounting table according to claim 1 or 5, wherein the clamping jaw clamping surfaces of the first electric clamping jaw and the clamping jaw clamping surfaces of the second electric clamping jaw are respectively provided with a clamping protrusion, the housing of the radar level gauge is provided with a clamping groove, and the clamping protrusions on the first electric clamping jaw and the second electric clamping jaw clamp the radar level gauge can be clamped into the clamping grooves of the radar level gauge.

7. The electric overhaul radar water level gauge mounting table according to claim 6, wherein said first electric clamping jaw has a first magnet on the housing between the two clamping jaws, said second electric clamping jaw has a second magnet on the housing between the two clamping jaws, and an iron sheet capable of being attracted to said first magnet and said second magnet is provided on the housing of the radar water level gauge.