CN219795742U - Hydraulic hoist piston rod monitoring device - Google Patents

Abstract

The utility model provides a hydraulic hoist piston rod monitoring device, which comprises a hydraulic hoist, wherein the hydraulic hoist comprises a piston rod with one end extending and contracting, two hoops with different apertures are arranged on the hydraulic hoist, a plurality of connecting plates are arranged between the two hoops, one end of each connecting plate is provided with a mounting frame, and the mounting frames can be connected at multiple angles relative to the connecting plates; the mounting bracket is used for installing the camera. The whole device has a simple structure, avoids the step of erecting an operation platform by combining the installation part during inspection, reduces the risk of safe operation, reduces the operation cost and improves the maintenance quality. Because the camera is closer to the piston rod, the trouble of shielding a building caused by using a telescope to patrol is avoided, the piston rod is comprehensively checked, and the telescopic inspection device has a high popularization value.

Description

Hydraulic hoist piston rod monitoring device

Technical Field

The utility model relates to the field of hoist monitoring, in particular to a hydraulic hoist piston rod monitoring device.

Background

The piston rod of the existing hydraulic hoist is mostly positioned below the machine room bottom plate after being installed, is limited by the arrangement of buildings and is limited in maintenance passage, and the defect is that: at present, the methods adopted in the industry are regular maintenance or remote inspection by using a telescope, but both methods have great limitations, the inspection in the inspection period needs to be combined with the installation part to set up an operation platform, the safety risk is high, the operation cost is high, the operation can only be carried out regularly, the telescope inspection is difficult to realize comprehensive inspection of a piston rod due to shielding of a building, and the visual effect is poor due to the long distance. Therefore, a hydraulic hoist piston rod monitoring device is provided for solving the problems.

Disclosure of Invention

The utility model provides a hydraulic hoist piston rod monitoring device, which solves the problems that the hydraulic hoist piston rod is required to be regularly overhauled, an operation platform is required to be erected at a combined installation position, the safety risk is high, and the operation cost is high; the problem that the telescope is long in inspection distance and poor in visual effect is difficult to realize comprehensive inspection of the piston rod.

In order to solve the technical problems, the utility model adopts the following technical scheme: the hydraulic hoist piston rod monitoring device comprises a hydraulic hoist, wherein the hydraulic hoist comprises a piston rod with one telescopic end, two hoops with different apertures are arranged on the hydraulic hoist, a plurality of connecting plates are arranged between the two hoops, one end of each connecting plate is provided with a mounting frame, and the mounting frames can be connected at multiple angles relative to the connecting plates;

the mounting bracket is used for installing the camera.

In the preferred scheme, two anchor clamps are installed respectively in the different diameter positions of the cylinder liner of hydraulic hoist, and the anchor clamps include two arc armful rings, are equipped with a plurality of side bearer boxes on the arc armful ring, are equipped with a plurality of first through-holes on the side bearer box.

In the preferred scheme, the connecting plate includes the diaphragm, and diaphragm one end is equipped with two backup pads, is equipped with a plurality of second through-holes on the diaphragm, and the second through-hole passes through bolted connection with first through-hole.

In the preferred scheme, a supporting plate is provided with a top mounting hole, and one side of the top mounting hole is provided with a plurality of bottom mounting holes;

the plurality of bottom mounting holes are arranged in an arc shape around the circle center of the top mounting hole.

In the preferred scheme, the mounting bracket includes the plate body, and the plate body top is equipped with the installation shell, is equipped with the mounting panel on the installation shell, and plate body bottom both sides are equipped with the regulating plate.

In the preferred scheme, be equipped with a plurality of mounting holes on the mounting panel, be equipped with fixed orifices and regulation hole on the regulating plate, the fixed orifices passes through bolted connection with the top mounting hole, and the regulation hole passes through the bolt and is connected with one of them bottom mounting hole.

The beneficial effects of the utility model are as follows: when the hydraulic hoist is maintained, the hydraulic hoist is driven to enable a piston rod of the hydraulic hoist to stretch out and draw back, a plurality of connecting plates are installed on the anchor ear, a mounting frame is installed on the connecting plates, a camera is installed on the mounting frame, when the piston rod stretches and slides, the camera on the plurality of mounting frames shoots a piston rod surface image, a panoramic image of the piston rod surface is obtained, the running state of the piston rod is controlled in real time through analysis of the image, defects of the piston rod are identified and positioned in real time, and short plates existing in the existing equipment management are thoroughly changed.

The whole device has a simple structure, avoids the step of erecting an operation platform by combining the installation part during inspection, reduces the risk of safe operation, reduces the operation cost and improves the maintenance quality. Because the camera is closer to the piston rod, the trouble of shielding a building caused by using a telescope to patrol is avoided, the piston rod is comprehensively checked, and the telescopic inspection device has a high popularization value.

Drawings

The utility model is further described below with reference to the drawings and examples;

FIG. 1 is an isometric view of the overall structure of the present utility model;

FIG. 2 is an enlarged view of FIG. 1A in accordance with the present utility model;

FIG. 3 is an isometric view of the web of the present utility model;

FIG. 4 is an isometric view of the mounting bracket of the present utility model;

figure 5 is an isometric view of a half of the anchor ear of the present utility model;

in the figure: a hydraulic hoist 1; a piston rod 2; a hoop 3; an arc-shaped holding ring 301; a sideframe box 302; a first through hole 303; a connection plate 4; a cross plate 401; a second through hole 4011; a support plate 402; a bottom mounting hole 4021; top mounting holes 4022; a mounting frame 5; a plate body 501; a mounting shell 502; a mounting plate 503; a mounting hole 5031; an adjustment plate 504; a fixing hole 5041; adjusting aperture 5042.

Detailed Description

Example 1:

as shown in fig. 1-5, the hydraulic hoist piston rod monitoring device comprises a hydraulic hoist 1, wherein the hydraulic hoist 1 comprises a piston rod 2 with one end telescopic, two hoops 3 with different apertures are arranged on the hydraulic hoist 1, a plurality of connecting plates 4 are arranged between the two hoops 3, one end of each connecting plate 4 is provided with a mounting frame 5, and the mounting frames 5 can be connected in a multi-angle manner relative to the connecting plates 4;

the mounting frame 5 is used for mounting the camera. From this structure, when hydraulic hoist 1 maintains, drive hydraulic hoist 1, so that hydraulic hoist 1's piston rod 2 is flexible, install a plurality of connecting plates 4 on staple bolt 3, install mounting bracket 5 on the connecting plate 4, install the camera on the mounting bracket 5, when piston rod 2 flexible slip, the camera on a plurality of mounting brackets 5 shoots piston rod 2 surface image, obtain the panoramic image on piston rod 2 surface, through the analysis to the image, control piston rod running state in real time, discern and fix a position piston rod 2 defect in real time, thoroughly change the shortboard that exists in the present equipment management. The whole device has a simple structure, avoids the step of erecting an operation platform by combining the installation part during inspection, reduces the risk of safe operation, reduces the operation cost and improves the maintenance quality.

Because the camera is closer to the piston rod 2, the trouble of shielding a building caused by using a telescope for inspection is avoided, and the comprehensive inspection of the piston rod is realized.

The regulation hole 5042 of mounting bracket 5 is installed on the top mounting hole 4022 of difference in backup pad 402 to make mounting bracket 5 for the different angles of connecting plate 4 slope, so that the camera of installing on the mounting bracket 5 is for the different angles of piston rod 2 slope, can adjust the mounted position of camera, in order to avoid the camera to install on mounting bracket 5 the limited visual field, after piston rod 2 accomplishes whole flexible, still can not comprehensive detection.

In the preferred scheme, two anchor clamps 3 are installed respectively in the different diameter positions of the cylinder liner of hydraulic hoist 1, and anchor clamps 3 include two arc arming rings 301, are equipped with a plurality of side bearer boxes 302 on the arc arming ring 301, are equipped with a plurality of first through-holes 303 on the side bearer box 302. From this structure, the staple bolt 3 of two different diameters are installed respectively in the different positions of the cylinder liner of hydraulic hoist 1, and two staple bolts 3 are connected through connecting plate 4 to avoid being close to connecting plate 4 of piston rod 2 because installation a plurality of cameras are heavier and appear gliding phenomenon, increase overall structure's stability, avoid staple bolt 3 at the gliding phenomenon of hydraulic hoist 1.

In a preferred scheme, the connecting plate 4 comprises a transverse plate 401, two support plates 402 are arranged at one end of the transverse plate 401, a plurality of second through holes 4011 are formed in the transverse plate 401, and the second through holes 4011 are connected with the first through holes 303 through bolts. In this structure, the connecting plate 4 is connected with the two anchor ears 3, so that the stability of the whole structure is improved.

In a preferred embodiment, the support plate 402 is provided with a top mounting hole 4022, and one side of the top mounting hole 4022 is provided with a plurality of bottom mounting holes 4021;

a plurality of bottom mounting holes 4021 are arranged in an arc around the center of the top mounting hole 4022. With this structure, the plurality of bottom mounting holes 4021 are arranged in an arc shape around the center of the top mounting hole 4022 so that the distances from the plurality of bottom mounting holes 4021 to the mounting hole 4022 are the same, so that the mounting frame 5 can be mounted on the connection plate 4 at different angles.

In a preferred scheme, the mounting frame 5 comprises a plate body 501, a mounting shell 502 is arranged at the top of the plate body 501, a mounting plate 503 is arranged on the mounting shell 502, and adjusting plates 504 are arranged on two sides of the bottom of the plate body 501. With this structure, the mounting hole 5031 of the mounting plate 503 is used for mounting the camera, and the mounting plate 503 is inclined with respect to the plate body 501 so that the camera is mounted on the mounting frame 5 so as to be inclined with respect to the piston rod 2, so that the camera can be monitored on line against the surface of the piston rod 2.

In a preferred embodiment, the mounting plate 503 is provided with a plurality of mounting holes 5031, the adjusting plate 504 is provided with a fixing hole 5041 and an adjusting hole 5042, the fixing hole 5041 is connected with the top mounting hole 4022 through a bolt, and the adjusting hole 5042 is connected with one of the bottom mounting holes 4021 through a bolt. From this structure, the regulation hole 5042 of mounting bracket 5 installs on the top mounting hole 4022 of difference in backup pad 402 to make mounting bracket 5 for the different angles of connecting plate 4 slope, so that the camera of installing on the mounting bracket 5 is for the different angles of piston rod 2 slope, can adjust the mounted position of camera, with the limited field of vision of avoiding the camera to install on mounting bracket 5, after piston rod 2 accomplishes whole flexible, still can not comprehensive detection.

The above embodiments are only preferred embodiments of the present utility model, and should not be construed as limiting the present utility model, and the scope of the present utility model should be defined by the claims, including the equivalents of the technical features in the claims. I.e., equivalent replacement modifications within the scope of this utility model are also within the scope of the utility model.

Claims (6)

1. Hydraulic hoist piston rod monitoring devices, characterized by: the hydraulic hoist comprises a hydraulic hoist (1), wherein the hydraulic hoist (1) comprises a piston rod (2) with one telescopic end, two hoops (3) with different apertures are arranged on the hydraulic hoist (1), a plurality of connecting plates (4) are arranged between the two hoops (3), one end of each connecting plate (4) is provided with a mounting frame (5), and the mounting frames (5) can be connected at multiple angles relative to the connecting plates (4);

the mounting frame (5) is used for mounting the camera.

2. The hydraulic hoist piston rod monitoring device of claim 1, characterized by: two anchor clamps (3) are installed respectively in the diameter positions that the cylinder liner of hydraulic hoist (1) is different, and anchor clamps (3) are including two arc armful rings (301), are equipped with a plurality of side bearer boxes (302) on arc armful ring (301), are equipped with a plurality of first through-holes (303) on side bearer box (302).

3. The hydraulic hoist piston rod monitoring device of claim 1, characterized by: the connecting plate (4) comprises a transverse plate (401), two supporting plates (402) are arranged at one end of the transverse plate (401), a plurality of second through holes (4011) are formed in the transverse plate (401), and the second through holes (4011) are connected with the first through holes (303) through bolts.

4. The hydraulic hoist piston rod monitoring device of claim 3, characterized by: a top mounting hole (4022) is formed in the supporting plate (402), and a plurality of bottom mounting holes (4021) are formed in one side of the top mounting hole (4022);

a plurality of bottom mounting holes (4021) are arranged in an arc shape around the center of the top mounting hole (4022).

5. The hydraulic hoist piston rod monitoring device of claim 1, characterized by: the mounting frame (5) comprises a plate body (501), wherein a mounting shell (502) is arranged at the top of the plate body (501), a mounting plate (503) is arranged on the mounting shell (502), and adjusting plates (504) are arranged on two sides of the bottom of the plate body (501).

6. The hydraulic hoist piston rod monitoring device of claim 5, characterized by: be equipped with a plurality of mounting holes (5031) on mounting panel (503), be equipped with fixed orifices (5041) and regulation hole (5042) on regulating plate (504), fixed orifices (5041) pass through bolted connection with top mounting hole (4022), and regulation hole (5042) pass through the bolt and are connected with one of them bottom mounting hole (4021).