CN221445737U - Rotating shaft abrasion loss detector used in deep sea environment - Google Patents

Abstract

The utility model discloses a rotating shaft abrasion loss detector used in a deep sea environment, which comprises a rotating shaft body and two mounting plates, wherein the two mounting plates are connected through a fixing mechanism, extruding plates which are contacted with the rotating shaft body are arranged on the sides of the two mounting plates through an extruding mechanism, movable grooves are formed in the arc-shaped outer walls of the two mounting plates, movable rods are arranged in the movable grooves, pressing grooves are formed in the movable rods, vertical rods are arranged in the pressing grooves, limiting rods are sleeved on the outer walls of the vertical rods through an upper pushing mechanism in a sliding mode, limiting grooves are formed in the upper inner walls of the movable grooves, and a plurality of screws are rotationally arranged on the movable rods in a threaded mode. According to the utility model, by arranging the components such as the mounting plate, the movable rod, the screw rod, the contact plate, the rack and the like, the multi-area and multi-azimuth detection operation of the rotating shaft body is realized, and multiple groups of data can be obtained through single detection.

Description

Rotating shaft abrasion loss detector used in deep sea environment

Technical Field

The utility model relates to the technical field of deep sea environment detection, in particular to a rotating shaft abrasion loss detector used in a deep sea environment.

Background

The power of the equipment running in the deep sea environment mainly comes from the rotation of shaft parts, so that the state monitoring of the shaft parts is particularly important, and the shaft parts of the underwater running equipment are always abraded by friction with seawater in the rotation process, so that the abrasion loss of the shaft parts of the underwater equipment is required to be measured and fed back in real time, and the state of the equipment is timely and accurately known.

The method is characterized by comprising the following steps of: the common detection device used in the deep sea environment is single in structure, single detection can only realize detection of one area of the rotating shaft body, multiple detection is needed by multiple detection on multiple surfaces and multiple areas, multiple detection corresponds to multiple installation and disassembly, the deep sea environment is severe, and the frequent disassembly and assembly are tedious and unchanged. In order to reduce the complexity of detection and improve convenience, a rotating shaft abrasion loss detector used in a deep sea environment needs to be redesigned.

Disclosure of utility model

The utility model aims to solve the defects in the prior art, and provides a rotating shaft abrasion loss detector for a deep sea environment.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a be used for pivot wearing and tearing volume detector under deep sea environment, includes pivot body and two mounting panels, two connect through fixed establishment between the mounting panel, two the mounting panel side all is equipped with the stripper plate with pivot body contact through extrusion mechanism, two all be equipped with the movable groove on the mounting panel arc outer wall, be equipped with the movable rod in the movable groove, be equipped with down the indent on the movable rod, be equipped with the montant in the indent down, the montant outer wall is equipped with the gag lever post through last roof mechanism slip cap, the inner wall is equipped with the spacing groove on the movable groove, screw thread rotation is equipped with many screws on the movable rod, the screw rod tip is connected with the contact plate through stop mechanism rotation, screw rod tip fixed is equipped with the turning block.

Preferably, the fixing mechanism comprises fixing plates arranged on the mounting plate, and the two corresponding fixing plates are connected through a bolt assembly.

Preferably, the extrusion mechanism comprises an extrusion spring arranged between the extrusion plate and the mounting plate, and two ends of the extrusion spring are respectively and elastically connected with the outer wall of the extrusion plate and the outer wall of the mounting plate.

Preferably, the upper jacking mechanism comprises an upper jacking spring sleeved outside the vertical rod, and two ends of the upper jacking spring are respectively and elastically connected with the outer wall of the limit rod and the inner bottom wall of the lower pressing groove.

Preferably, the limiting mechanism comprises a rack arranged on the contact plate, an opening corresponding to the rack is arranged on the movable rod, and a pointer corresponding to the rack is arranged on the movable rod.

Preferably, the contact plate is provided with first anti-skidding lines on the surface contacted with the rotating shaft body, and the arc-shaped outer wall of the rotating block is provided with second anti-skidding lines.

The utility model has the beneficial effects that:

1. through setting up the subassembly such as mounting panel, movable rod, screw rod, contact plate and rack, realized the multi-region diversified detection operation of pivot body, single detection can obtain multiunit data.

2. Through setting up components such as gag lever post and fixed plate, realized nimble dismouting between the device multiple modules, guarantee the convenience of device use.

Drawings

FIG. 1 is a schematic diagram of a spindle wear detector for use in a deep sea environment according to the present utility model;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is an enlarged schematic view of the structure at B in FIG. 1;

Fig. 4 is a schematic elevational view of the structure of fig. 1.

In the figure: the device comprises a rotating shaft body 1, a mounting plate 2, a movable rod 3, a screw 4, a contact plate 5, a squeezing plate 6, a movable groove 7, a pressing groove 8, a limiting rod 9, a limiting groove 10, a vertical rod 11, a rotating block 12, a rack 13, a pointer 14 and a fixed plate 15.

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.

Referring to fig. 1-4, a rotating shaft abrasion loss detector for use in a deep sea environment comprises a rotating shaft body 1 and two mounting plates 2, wherein the two mounting plates 2 are connected through a fixing mechanism, squeeze plates 6 which are in contact with the rotating shaft body 1 are arranged on the sides of the two mounting plates 2 through squeeze mechanisms, movable grooves 7 are formed in the arc-shaped outer walls of the two mounting plates 2, movable rods 3 are arranged in the movable grooves 7, pressing grooves 8 are formed in the movable rods 3, vertical rods 11 are arranged in the pressing grooves 8, limiting rods 9 are arranged on the outer walls of the vertical rods 11 through sliding sleeves of an upper pushing mechanism, limiting grooves 10 are formed in the upper inner walls of the movable grooves 7, a plurality of screws 4 are arranged on the movable rods 3 in a threaded mode, contact plates 5 are connected to the end portions of the screws 4 in a rotating mode through the limiting mechanisms, and rotating blocks 12 are fixedly arranged at the end portions of the screws 4.

The fixing mechanism comprises fixing plates 15 arranged on the mounting plates 2, the two corresponding fixing plates 15 are connected through bolt assemblies, and the two mounting plates 2 are connected together and are positioned outside the rotating shaft body 1 by means of the fixing plates 15 and the bolt assemblies.

The extrusion mechanism comprises an extrusion spring arranged between the extrusion plate 6 and the mounting plate 2, two ends of the extrusion spring are respectively elastically connected with the outer wall of the extrusion plate 6 and the outer wall of the mounting plate 2, the extrusion operation of the extrusion plate 6 is realized by the extrusion spring, and the two mounting plates 2 are ensured not to be separated from the rotating shaft body 1.

The upper pushing mechanism comprises an upper pushing spring sleeved outside the vertical rod 11, two ends of the upper pushing spring are respectively elastically connected with the outer wall of the limit rod 9 and the inner bottom wall of the lower pressing groove 8, the upper pushing spring realizes the upper pushing operation of the limit rod 9, the limit rod 9 is ensured to partially enter the limit groove 10, and the movable rod 3 is prevented from being separated from the movable groove 7.

The limiting mechanism comprises a rack 13 arranged on the contact plate 5, an opening corresponding to the rack 13 is arranged on the movable rod 3, a pointer 14 corresponding to the rack 13 is arranged on the movable rod 3, and the rack 13 prevents the contact plate 5 from rotating along with the screw 4.

The contact plate 5 is equipped with first anti-skidding line on the face of pivot body 1 contact, is equipped with the second anti-skidding line on the rotatory piece 12 arc outer wall, and the stability when the mounting panel 2 was installed for pivot body 1 is guaranteed to first anti-skidding line, and the relative slip can not take place between hand and the rotatory piece 12 when the second anti-skidding line guaranteed to rotate the rotatory piece 12.

When the utility model is used, as shown in fig. 1 and 4, two mounting plates 2 are positioned outside a rotating shaft body 1, a rotating block 12 drives a screw 4 to rotate, the screw 4 rotates to move relative to the mounting plates 2, then a contact plate 5 is driven to move to contact with the outer wall of the rotating shaft body 1, at the moment, a rack 13 moves, the abrasion condition of the outer wall of the rotating shaft body 1 can be known according to the number of a pointer 14 indicating the rack 13, a plurality of contact plate 5 assemblies are arranged, the abrasion condition of multiple areas of the rotating shaft body 1 can be obtained, a movable rod 3 can move in a movable groove 7, and the contact plate 5 is driven to move and adjust, so that the multi-azimuth abrasion condition detection of the rotating shaft body 1 is realized.

The bolt assembly is unscrewed to release the connection of the corresponding fixing plate 15, so that the assembly such as the mounting plate 2 and the rotating shaft body 1 are disassembled, the limiting rod 9 is pressed down to enable the compression spring to be pressed down and separated from the limiting groove 10, then the movable rod 3 is moved transversely to drive part of the assembly to be disassembled from the mounting plate 2, the assembly and the disassembly are flexible among the assemblies, and the convenience of the device in use is guaranteed.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The utility model provides a be used for pivot wearing and tearing volume detector under deep sea environment, includes pivot body (1) and two mounting panel (2), its characterized in that, two connect through fixed establishment between mounting panel (2), two mounting panel (2) side all is equipped with extrusion plate (6) with pivot body (1) contact through extrusion mechanism, two all be equipped with movable groove (7) on mounting panel (2) arc outer wall, be equipped with movable rod (3) in movable groove (7), be equipped with down indent (8) on movable rod (3), be equipped with montant (11) in pushing down groove (8), montant (11) outer wall is equipped with gag lever post (9) through last apical organ slip cap, the inner wall is equipped with spacing groove (10) on movable groove (7), screw thread rotation is equipped with many screw rods (4) on movable rod (3), screw rod (4) tip is connected with contact plate (5) through spacing mechanism rotation, screw rod (4) tip is fixed and is equipped with rotating block (12).

2. The rotating shaft abrasion loss detector for the deep sea environment according to claim 1, wherein the fixing mechanism comprises fixing plates (15) arranged on the mounting plate (2), and the two corresponding fixing plates (15) are connected through a bolt assembly.

3. The rotating shaft abrasion loss detector for the deep sea environment according to claim 2, wherein the extrusion mechanism comprises extrusion springs arranged between the extrusion plate (6) and the mounting plate (2), and two ends of each extrusion spring are respectively and elastically connected with the outer wall of the extrusion plate (6) and the outer wall of the mounting plate (2).

4. The detector for the abrasion loss of the rotating shaft in the deep sea environment according to claim 3, wherein the jacking mechanism comprises an jacking spring sleeved outside the vertical rod (11), and two ends of the jacking spring are respectively and elastically connected with the outer wall of the limit rod (9) and the inner bottom wall of the lower pressing groove (8).

5. The detector for the abrasion loss of the rotating shaft in the deep sea environment according to claim 4, wherein the limiting mechanism comprises a rack (13) arranged on the contact plate (5), an opening corresponding to the rack (13) is formed in the movable rod (3), and a pointer (14) corresponding to the rack (13) is arranged on the movable rod (3).

6. The detector for the abrasion loss of the rotating shaft in the deep sea environment according to claim 5, wherein the contact plate (5) is provided with first anti-skidding patterns on the surface contacted with the rotating shaft body (1), and the arc-shaped outer wall of the rotating block (12) is provided with second anti-skidding patterns.