CN210005785U - on-site metallographic microscope base supporting device - Google Patents

Abstract

The utility model discloses an kind on-spot metallographic microscope base supporting device, including supporting the base, direction of rotation magnet, the supporting slider, the fastener, knob and end plate, the supporting base is including observing circle and sliding tray, the sliding tray is used for placing the supporting slider, direction of rotation magnet sets up respectively the supporting base is inside with inside the supporting slider, the knob sets up the end at affiliated direction of rotation magnet, the end plate sets up the direction of rotation magnet is end in addition, the supporting slider sets up in the supporting base sliding tray, the fastener sets up inside the supporting base, the mechanical stability of time measurement has been strengthened to this device water-cooling wall pipeline metallography to overcome the artificial rocking that causes when observing or shooing, and had compact and the simple advantage of installation dismantlement.

Description

on-site metallographic microscope base supporting device

Technical Field

The utility model relates to a material detects the field, especially relates to kind on-the-spot metallographic microscope base supporting devices.

Background

The on-site metallographic microscope is kinds of precise optical instruments capable of directly observing metallographic structures on workpieces without cutting and sampling, and at present, for a water wall pipeline, the on-site metallographic microscope base for metallographic detection is not fixed firmly and is easy to shake or fall off, so that the problem that clear images cannot be obtained frequently when the metallographic structures of the workpieces are observed is caused, the actual reason is that the magnet adsorption force is insufficient due to the fact that the contact area between the support base and the metal surface is too small, and therefore, on-site metallographic microscope bases which can be firmly fixed on the water wall pipeline are designed to become problems which need to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to not enough in the design of current on-the-spot metallographic microscope base, provide kinds of on-the-spot metallographic microscope unable adjustment base's supporting arrangement.

The utility model discloses a realize through following technical scheme:

A supporting device for an on-site metallurgical microscope base is characterized by comprising a supporting base, a adsorption component, a th supporting component and a second supporting component, wherein the th supporting component and the second supporting component are respectively arranged at two opposite ends of the supporting base, the th adsorption component is installed in the supporting base between the th supporting component and the second supporting component, the th supporting component and the second supporting component can be used for fixing two sides of a piece to be detected, and the th adsorption component can be used for fixing the bottom of the piece to be detected.

As a further improvement of the above supporting device, the adsorption component comprises a 0 th knob, a 1 th end plate and a 2 th rotation direction magnet, the th end plate is fixed at the end of the th rotation direction magnet and used for preventing the th rotation direction magnet from falling off the supporting base, and the th knob is fixed at the other end of the th rotation direction magnet and used for controlling the rotation direction of the th rotation direction magnet.

As a further improvement of the above supporting device, the supporting base further includes an observation ring, the observation ring is a hollow groove disposed at the center of the supporting base and is symmetrical along the central axis of the supporting base.

As a further improvement of the above supporting device, the th adsorption module is provided with 2 groups, and 2 groups of th adsorption modules are respectively arranged on two sides of the observation ring.

As a further improvement of the above supporting device, the bearing includes a supporting slider, the end of the supporting slider is mounted on the supporting base, the other end of the supporting slider is mounted with a second adsorption component, and the structure of the second bearing is the same as that of the bearing.

As a further improvement of the above supporting device, the second adsorption component includes a second knob, a second end plate and a second rotation direction magnet, the second end plate is fixed at the end of the second rotation direction magnet for preventing the second rotation direction magnet from falling off the supporting slider, and the second knob is fixed at the other end of the second rotation direction magnet for controlling the rotation direction of the second rotation direction magnet.

As a further improvement of the above attraction module, the second rotation direction magnet comprises two parts, wherein parts are made of magnetic material, and parts are made of non-magnetic material, and the rotation direction magnet has the same structure as the second rotation direction magnet.

As a further improvement of the above supporting device, the supporting base further comprises a sliding groove, which is a hollow groove disposed at opposite ends of the supporting base for placing the th supporting member and the second supporting member.

improvement of the supporting device, the supporting device further comprises 2 fasteners, the fasteners correspond to the mounting holes of the supporting base, and the fasteners are detachably and fixedly connected with the supporting base.

As a further improvement of the above supporting device, the bottom of the supporting base is provided with cylindrical grooves, and the cross sections of the grooves are triangular.

The utility model discloses an on-spot metallographic microscope base supporting arrangement and supporting method have following beneficial effect:

1) the mechanical stability of the water-cooled wall pipeline during metallographic detection can be enhanced, and shaking caused by human factors during observation or photographing is overcome due to the fact that the multi-direction is fixed;

2) compact structure and simple installation and disassembly, and is suitable for direct installation on a detection workpiece.

Other details of the invention are given by the following detailed description and the attached drawings, which are used for exemplifying the on-site metallographic microscope base support device of the invention. It is clear that the above claims and the features described throughout are not only applicable to the respective illustrations, but also can be used in other combinations or alone without departing from the scope of the invention.

Drawings

The following detailed description provides a detailed description of the embodiments of the present invention, which is to be read in connection with the accompanying drawings, wherein:

FIG. 1 is a schematic front view of a supporting device of the present invention;

FIG. 2 is a left side schematic view of FIG. 1;

FIG. 3 is a schematic top view of FIG. 1;

FIG. 4 is a schematic front view of a support member of the present invention;

FIG. 5 is a left side schematic view of FIG. 4;

fig. 6 is a top view of fig. 4.

Detailed Description

The in-situ metallurgical microscope base supporting device shown in fig. 1, 2 and 3 comprises a supporting base 1, an th adsorption component 2, a th adsorption component 41 and a second adsorption component 42, wherein the th adsorption component 41 and the second adsorption component 42 are respectively arranged at two opposite ends of the supporting base 1, the th adsorption component 2 is arranged in the supporting base 1 between the th adsorption component 41 and the second adsorption component 42, the th adsorption component 41 and the second adsorption component 42 can be used for fixing two sides of a to-be-tested piece, and the th adsorption component 2 can be used for fixing the bottom of the to-be-tested piece.

Specifically, referring to fig. 3, the th adsorption component 2 includes a th knob 21, a 0 th end plate 22 and a 1 th rotation direction magnet 23, the 2 th rotation direction magnet 23 is inserted into the support base 1, the th end plate 22 is fixed to the end of the th rotation direction magnet 23 and is used for preventing the th rotation direction magnet 23 from falling off from the support base 1, and the th knob 21 is fixed to the end of the th rotation direction magnet 23 and is used for controlling the rotation direction of the th rotation direction magnet 23 so as to achieve the purpose of adsorbing or separating from the object to be tested.

Specifically, referring to fig. 3, the supporting base 1 further comprises an observation ring 7, wherein the observation ring 7 is a circular hollow groove arranged in the center of the supporting base 1, and is symmetrical along the central axis of the supporting base 1, and the metallographic structure of the piece to be measured can be observed from the eyepiece through the observation ring 7.

Specifically, adsorption component 2 is provided with 2 groups, and 2 groups adsorption component 2 sets up respectively in the both sides of observing circle 7, and the knob 21 of wrench movement adsorption component 2 can make support base 1 adsorb on the piece surface that awaits measuring.

Referring to fig. 1 and 4, the th supporter 41 includes a supporter slider 412, the end of the supporter slider 412 is mounted on the sliding groove 5 of the supporting base 1, a mounting hole is opened beside the sliding groove 5 , a fastener 6 can fix the th supporter 41 to the supporting base 1 through the mounting hole, the other end of the supporter slider 412 is mounted with the second adsorption assembly 3, and the second supporter 42 has the same structure as the th supporter 41.

Referring to fig. 6, the second adsorption assembly 3 includes a second knob 31, a second end plate 32, and a second rotation direction magnet 33, the second end plate 32 is fixed to an end of the second rotation direction magnet 33 for preventing the second rotation direction magnet 33 from falling off the support slider 412, and the second knob 31 is fixed to the other end of the second rotation direction magnet 33 for controlling a rotation direction of the second rotation direction magnet 33.

Specifically, the second rotating direction magnet 33 includes two parts, wherein parts are made of magnetic material, the other parts are made of nonmagnetic material, the th rotating direction magnet 23 has the same structure as the second rotating direction magnet 33, the surface of the magnetic material faces the workpiece, the workpiece can be attracted and fixed, and the surface of the surface nonmagnetic material faces the workpiece, the workpiece is separated from the metal surface.

Specifically, the supporting base 1 further includes a sliding groove 5, the sliding groove 5 is a hollow groove disposed at opposite ends of the supporting base 1 for placing the th supporting member 41 and the second supporting member 42, a mounting hole is disposed at an end of the sliding groove 5 , and the fastening member 6 can be pressed against the th supporting member 41 and the second supporting member 42 through the mounting hole, so that the th supporting member 41 and the second supporting member 42 are fixed on the supporting base.

Specifically, the device further comprises 2 fastening pieces 6, the fastening pieces 6 correspond to mounting holes formed in the supporting base 1, and the fastening pieces 6 are detachably and fixedly connected with the supporting base 1.

Specifically, cylindrical grooves are formed in the bottom of the supporting base 1, and the cross sections of the grooves are triangular, so that the supporting base 1 can be placed on the surface of a workpiece more stably.

The utility model discloses use on-spot metallographic microscope base supporting device's supporting method does:

placing the th support 41 and the second support 42 on the workpiece to be detected, and twisting the second knob 31 arranged on the supports to make the second rotation direction magnet 33 adsorbed on the surface of the workpiece to be detected;

the sliding groove 5 in the supporting base 1 is inserted through the th supporting piece 41 and the second supporting piece 42, the surface of the supporting base 1 is contacted with the surface of the workpiece, the fastening piece 6 arranged on the supporting base 1 is fastened, the th supporting piece 41 and the second supporting piece 42 are fixed with the supporting base 1, the th knob 21 arranged on the supporting base 1 is twisted, and the end of the rotation direction magnet 23 with magnetism is adsorbed on the workpiece.

The above embodiments are not limited to the technical solutions of the embodiments themselves, and the embodiments may be combined with each other to form a new embodiment. The above embodiments are only used for illustrating the technical solutions of the present invention and are not limited thereto, and any modification or equivalent replacement that does not depart from the spirit and scope of the present invention should be covered within the scope of the technical solutions of the present invention.

Claims (10)

1. The device for supporting the base of the on-site metallurgical microscope is characterized by comprising a supporting base (1), a adsorption assembly (2), a th support (41) and a second support (42), wherein the th support (41) and the second support (42) are respectively arranged at two opposite ends of the supporting base (1), the th adsorption assembly (2) is arranged in the supporting base (1) between the th support (41) and the second support (42), the th support (41) and the second support (42) can be used for fixing two sides of a to-be-tested piece, and the th adsorption assembly (2) can be used for fixing the bottom of the to-be-tested piece.
2. 2. The on-site metallurgical microscope base supporting device according to claim 1, wherein the th adsorption component (2) comprises a th knob (21), a 0 th end plate (22) and a 1 th rotation direction magnet (23), the th end plate (22) is fixed at the end of the th rotation direction magnet (23) and used for preventing the th rotation direction magnet (23) from falling off the supporting base (1), and the th knob (21) is fixed at the other end of the th rotation direction magnet (23) and used for controlling the rotation direction of the th rotation direction magnet (23).
3. 3. The in-situ metallurgical microscope base supporting device according to claim 1, wherein the supporting base (1) further comprises an observation ring (7), and the observation ring (7) is a hollow groove arranged in the center of the supporting base (1) and is symmetrical along the central axis of the supporting base (1).
4. 4. The in-situ metallurgical microscope base support device according to claim 3, characterized in that the th adsorption component (2) is provided with 2 groups, and the 2 groups of th adsorption components (2) are respectively arranged at two sides of the observation ring (7).
5. 5. The in-situ metallographic microscope base support device according to claim 2, characterized in that said th support (41) comprises a support slider (412), wherein end of said support slider (412) is mounted on the support base (1), and wherein a second suction assembly (3) is mounted on the other end of said support slider (412), and wherein said second support (42) has the same structure as said th support (41).
6. 6. The in-situ metallurgical microscope base supporting device according to claim 5, wherein the second adsorption assembly (3) comprises a second knob (31), a second end plate (32) and a second rotation direction magnet (33), the second end plate (32) is fixed to the end of the second rotation direction magnet (33) for preventing the second rotation direction magnet (33) from falling off the supporting slider (412), and the second knob (31) is fixed to the other end of the second rotation direction magnet (33) for controlling the rotation direction of the second rotation direction magnet (33).
7. 7. In situ metallographic microscope base support arrangement according to claim 6, characterized in that said second rotation direction magnet (33) comprises two parts, of which parts are made of magnetic material and parts are made of non-magnetic material, said rotation direction magnet (23) being structurally identical to the second rotation direction magnet (33).
8. 8. The in situ metallographic microscope base support arrangement according to claim 1, characterized in that said support base (1) further comprises sliding grooves (5), said sliding grooves (5) being hollow recesses provided at opposite ends of said support base (1) for housing said th (41) and second (42) bearings.
9. 9. The in-situ metallographic microscope base supporting device according to claim 1, further comprising 2 fastening members (6), wherein the fastening members (6) correspond to the mounting holes of the supporting base (1), and the fastening members (6) are detachably and fixedly connected with the supporting base (1).
10. 10. The in situ metallurgical microscope foundation supporting device according to claim 1, characterized in that cylindrical grooves are provided at the bottom of the supporting foundation (1), the cross section of the grooves is triangular.

Images