CN220357315U - Intelligent electronic control portable metallographic microscope - Google Patents

Abstract

The utility model relates to the technical field of microscopes, in particular to an intelligent electric control portable metallographic microscope, which comprises a microscope body, a magnetic seat, a magnetic locking spanner and a mounting assembly, wherein the magnetic locking spanner is arranged on the microscope body; the mounting assembly comprises a supporting table, a two-way sliding table, a Y-way sliding table, a lifting member and a driving member; the supporting bench is fixedly connected with the magnetic seat, is located one side of the magnetic seat, is connected with the supporting bench in a sliding manner, is located one side of the supporting bench, is connected with the microscope body through the lifting member, is arranged on one side of the sliding table in a sliding manner, is connected with the microscope body through the lifting member, is connected with the sliding table in a sliding manner, and achieves the purpose of target adjustment searching through position adjustment of the sliding structure in the Y direction through the member.

Description

Intelligent electronic control portable metallographic microscope

Technical Field

The utility model relates to the technical field of microscopes, in particular to an intelligent electric control portable metallographic microscope.

Background

The intelligent electronic control portable metallographic microscope is a high-tech product developed and developed by perfectly combining an optical microscope technology, a photoelectric conversion technology and a computer image processing technology.

When the conventional portable metallographic microscope is used, a microscope body is generally adsorbed and placed on the inner side and the outer side of a steel pipeline and a building supporting member, and then imaging is adjusted by controlling the position of a lens of the microscope, so that a detection (defect) target is found.

However, in the above-mentioned manner, when the object to be adsorbed is observed through the lens, since the existing products are manual, the user can only find the target by continuous manual operation. In the high-altitude detection operation, the danger is easy to occur when the manual adjustment is performed; or when detecting operation in a narrow pipeline, personnel enter the narrow pipeline inconveniently, and the whole operation process is very troublesome.

Disclosure of Invention

The utility model aims to provide an intelligent electronic control portable metallographic microscope, which can be used for carrying out target adjustment and searching through the position adjustment of a Y-direction sliding structure by a component, so that the whole adjustment is quicker and more accurate, and the actual use is more convenient and safer.

In order to achieve the purpose, the utility model provides an intelligent electric control portable metallographic microscope, which comprises a microscope body, a magnetic seat, a magnetic locking spanner and a mounting assembly, wherein the magnetic locking spanner is arranged on the microscope body;

the mounting assembly comprises a supporting table, a two-way sliding table, a Y-way sliding table, a lifting member and a driving member; the support table is fixedly connected with the magnetic seat and is positioned on one side of the magnetic seat, the two-way sliding table is in sliding connection with the support table and is positioned on one side of the support table, the Y-direction sliding table is connected with the microscope body through the lifting member and is slidably mounted on one side of the two-way sliding table, the lifting member is connected with the microscope body, and the driving member is connected with the two-way sliding table.

The lifting member comprises a movable frame, a lifting screw and a driving part, wherein the movable frame is fixedly connected with the supporting table and is positioned at one side of the supporting table; the lifting frame is fixedly connected with the microscope body and is slidably arranged on one side of the lifting frame; the lifting screw is in threaded connection with the lifting frame and is rotatably arranged on one side of the movable frame; the driving part is connected with the lifting screw.

The driving component comprises a connecting block, a moving screw, a moving motor, a sleeved shell and a sliding component, wherein the connecting block is fixedly connected with the Y-direction sliding table and is positioned at one side of the Y-direction sliding table; the movable screw is in threaded connection with the two-way sliding table and is rotatably arranged on one side of the connecting block; the output shaft of the mobile motor is connected with the mobile screw rod, and the mobile motor is fixedly arranged on one side of the connecting block; the sleeved shell is fixedly connected with the connecting block and sleeved on the mobile motor; the sliding member is connected to the two-way sliding table.

The driving component comprises a sleeved bevel gear, a driving motor and a protective shell, wherein the sleeved bevel gear is fixedly connected with the lifting screw and sleeved on the lifting screw; the driving bevel gear is meshed with the sleeved bevel gear and is rotatably arranged on one side of the movable frame; the output shaft of the driving motor is connected with the driving bevel gear, and the driving motor is fixedly arranged at one side of the movable frame; the protective shell is fixedly connected with the movable frame and fixedly installed on one side of the movable frame.

The sliding part comprises a fixed block, a sliding screw rod, a sliding motor and a mounting shell, wherein the fixed block is fixedly connected with the two-way sliding table and is positioned at one side of the two-way sliding table; the sliding screw is in threaded connection with the supporting table and is rotatably arranged on one side of the fixed block; the output shaft of the sliding motor is connected with the sliding screw rod, and the sliding motor is fixedly arranged on one side of the fixed block; the installation shell is fixedly connected with the fixed block and sleeved on the sliding motor.

According to the intelligent electric control portable metallographic microscope disclosed by the utility model, the supporting table is fixedly adsorbed on the corresponding operation platform through the magnetic seat and the magnetic locking spanner, then the moving screw and the sliding screw are respectively driven to rotate through the moving motor and the sliding motor, the Y-direction sliding table can correspondingly slide on the two-direction sliding table under the driving of the moving screw, the two-direction sliding table can correspondingly slide on the supporting table under the driving of the sliding screw, the Y-direction sliding table and the two-direction sliding table can correspondingly slide to complete the adjustment of the horizontal position of the microscope body, finally the driving bevel gear is driven to rotate through the driving motor according to actual conditions, the lifting screw can be driven to rotate through the sleeved bevel gear under the driving of the driving bevel gear, and the lifting frame can be driven to move on the moving frame under the driving of the lifting screw, so that the vertical height of the microscope body can be adjusted completely, the adjustment of the microscope body can be realized more conveniently and safely and accurately by arranging the Y-direction sliding member, and more conveniently adjusting the position of the microscope body can be found.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural diagram of an intelligent electronic control portable metallographic microscope according to a first embodiment of the present utility model.

Fig. 2 is a schematic view of a mounting structure of a driving motor according to a first embodiment of the present utility model.

Fig. 3 is a schematic structural view of a driving member according to a first embodiment of the present utility model.

Fig. 4 is a schematic diagram of the overall bottom structure of an intelligent electronically controlled portable metallographic microscope according to a first embodiment of the utility model.

In the figure: 101-microscope body, 102-magnetic base, 103-magnetic locking spanner, 104-supporting table, 105-two-way sliding table, 106-Y-direction sliding table, 107-moving frame, 108-lifting frame, 109-lifting screw, 110-connecting block, 111-moving screw, 112-moving motor, 113-sleeved shell, 114-sleeved bevel gear, 115-driving bevel gear, 116-driving motor, 117-protective shell, 118-fixed block, 119-sliding screw, 120-sliding motor and 121-installation shell.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the present application is:

referring to fig. 1 to 4, fig. 1 is a schematic structural diagram of an entire intelligent electronic control portable metallographic microscope, fig. 2 is a schematic structural diagram of a mounting structure of a driving motor 116, fig. 3 is a schematic structural diagram of driving components, and fig. 4 is a schematic structural diagram of a bottom of an entire intelligent electronic control portable metallographic microscope.

The utility model provides an intelligent electronic control portable metallographic microscope which comprises a main body and a plurality of electronic control portable metallographic microscopes, wherein: the magnetic force locking device comprises a microscope body 101, a magnetic seat 102, a magnetic force locking wrench 103 and a mounting assembly, wherein the mounting assembly comprises a supporting table 104, a two-way sliding table 105, a Y-direction sliding table 106, a lifting member and a driving member, the lifting member comprises a movable frame 107, a lifting frame 108, a lifting screw 109 and a driving component, the driving member comprises a connecting block 110, a movable screw 111, a movable motor 112, a sleeved shell 113 and a sliding component, the driving component comprises a sleeved bevel gear 114, a driving bevel gear 115, a driving motor 116 and a protective shell 117, and the sliding component comprises a fixed block 118, a sliding screw 119, a sliding motor 120 and a mounting shell 121. In the high-altitude detection operation, the danger is easy to occur when the manual adjustment is performed; or when detecting operation in a narrow pipeline, personnel enter the narrow pipeline inconveniently, and further the whole operation process is very troublesome.

In this embodiment, the microscope body 101 is composed of a housing, an optical system lens and a lens for observation, the magnetic base 102 and the magnetic locking wrench 103 are composed of a magnet, a magnet base, a rotating sleeve, a shifting lever, etc., the magnetic base 102 and the magnetic locking wrench 103 are mature principles, in the industry, belong to the mature prior art, and are a principle with a magnetic gauge stand commonly used in machining, the internal structural principle is mainly that when the magnet rotates to a middle position, magnetic lines of force can be easily taken away when closed circuits are formed in the two magnetizers respectively; after 90 degrees of rotation, the NS pole faces the two magnetizers respectively, and at the moment, magnetic force lines are formed to be closed from the N pole to the magnetizer to the guide rail to the other magnetizer to the S pole, so that the two magnetizers can be firmly attached to the guide rail, and further the whole installation adsorption is completed.

The support table 104 is fixedly connected with the magnetic base 102 and is located at one side of the magnetic base 102, the two-way sliding table 105 is slidably connected with the support table 104 and is located at one side of the support table 104, the Y-direction sliding table 106 is connected with the microscope body 101 through the lifting member and is slidably mounted at one side of the two-way sliding table 105, the lifting member is connected with the microscope body 101, the driving member is connected with the two-way sliding table 105, and the moving frame 107 is fixedly connected with the support table 104 and is located at one side of the support table 104; the lifting frame 108 is fixedly connected with the microscope body 101 and is slidably arranged on one side of the lifting frame 108; the lifting screw 109 is in threaded connection with the lifting frame 108 and is rotatably installed on one side of the movable frame 107; the driving part is connected with the lifting screw 109, the supporting table 104 is fixedly installed on one side of the magnetic seat 102, the two-way sliding table 105 arranged on the supporting table 104 keeps longitudinally sliding with the supporting table 104 through a corresponding dovetail sliding seat structure, the Y-direction sliding table 106 and the two-way sliding table 105 keep transversely sliding through a corresponding dovetail sliding seat structure, the Y-direction sliding table 106 is fixedly provided with the moving frame 107, the lifting frame 108 which is slidably installed on the moving frame 107 is fixed with the microscope body 101 on one side, the lifting frame 108 is provided with a threaded hole which is matched with the lifting screw 109, when the lifting screw 109 rotates, the lifting frame 108 can drive the limiting microscope body to correspondingly move up and down, so that a user can adjust the horizontal position of the microscope body 101 through the sliding of the two-way sliding table 105 on the supporting table 104 and the sliding of the Y-direction sliding table 106 on the two-way sliding table 105, and then the height of the microscope body 101 is adjusted through the lifting frame 108.

Secondly, the connecting block 110 is fixedly connected with the Y-direction sliding table 106 and is located at one side of the Y-direction sliding table 106; the moving screw 111 is screwed with the two-way sliding table 105 and is rotatably installed at one side of the connecting block 110; an output shaft of the moving motor 112 is connected with the moving screw 111, and the moving motor 112 is fixedly installed at one side of the connecting block 110; the sleeve shell 113 is fixedly connected with the connecting block 110 and is sleeved on the mobile motor 112; the sliding member is connected with the two-way sliding table 105, and the fixed block 118 is fixedly connected with the two-way sliding table 105 and is positioned at one side of the two-way sliding table 105; the sliding screw 119 is in threaded connection with the supporting table 104 and is rotatably installed at one side of the fixed block 118; an output shaft of the sliding motor 120 is connected with the sliding screw 119, and the sliding motor 120 is fixedly installed at one side of the fixed block 118; the installation shell 121 and the fixed block 118 are fixedly connected and sleeved on the sliding motor 120, the connection block 110 and the fixed block 118 are respectively and fixedly installed on the outer sides of the Y-direction sliding table 106 and the two-direction sliding table 105, the corresponding driving modes of the Y-direction sliding table 106 and the two-direction sliding table 105 are similar to those of the structure, the connection block 110 and the fixed block 118 are respectively and rotatably provided with the moving screw 111 and the sliding screw 119, the moving screw 111 is matched with threaded hole bosses arranged on the side edge of the two-direction sliding table 105, the sliding screw 119 is matched with threaded hole bosses arranged on the side edge of the supporting table 104, the moving screw 111 and the sliding screw 119 are respectively fixed with output shafts of the moving motor 112 and the two-direction sliding table 105, the outer sides of the moving motor 112 and the sliding motor 120 are respectively provided with the sleeved shell 113 and the installation shell 121 for protection, so that a user can directly drive the moving screw 111 and the two-direction sliding motor 120 to respectively through the moving motor 112 and the sliding motor 120 to drive the two-direction sliding screw 111 to rotate the two-direction sliding table 105 to the two-direction sliding table 106 and the two-direction sliding table 105 to the moving screw 119 to the two-direction sliding table 105, and the two-direction sliding table 119 can rotate to the moving screw 119 and the two-direction sliding table 105 to the Y-direction sliding table 119 to move.

Meanwhile, the sleeved bevel gear 114 is fixedly connected with the lifting screw 109 and sleeved on the lifting screw 109; the driving bevel gear 115 is meshed with the sleeved bevel gear 114 and is rotatably arranged at one side of the movable frame 107; an output shaft of the driving motor 116 is connected with the driving bevel gear 115, and the driving motor 116 is fixedly arranged at one side of the movable frame 107; the protection shell 117 is fixedly connected with the movable frame 107 and fixedly installed on one side of the movable frame 107, the sleeved bevel gear 114 is fixedly sleeved on the lifting screw 109, the sleeved bevel gear 114 is meshed with the driving bevel gear 115 rotatably installed on the side edge of the movable frame 107, the driving bevel gear 115 is fixed with an output shaft of the driving motor 116, the protection shell 117 for protection is arranged on the outer side of the driving motor 116, so that when the driving motor 116 drives the driving bevel gear 115 to rotate, the driving bevel gear 115 can drive the sleeved bevel gear 114 to rotate, then the lifting screw 109 is driven to rotate through the rotation of the sleeved bevel gear 114, and when the lifting screw 109 rotates, the lifting frame 108 can drive the microscope body 101 to correspondingly move up and down.

When the intelligent electronic control portable metallographic microscope is used, the supporting table 104 is fixedly adsorbed on the corresponding operation platform through the magnetic base 102 and the magnetic locking wrench 103, then the moving screw 111 and the sliding screw 119 are respectively driven to rotate through the moving motor 112 and the sliding motor 120, the Y-direction sliding table 106 can correspondingly slide on the two-direction sliding table 105 under the driving of the moving screw 111, the two-direction sliding table 105 can correspondingly slide on the supporting table 104 under the driving of the sliding screw 119, the two-direction sliding table 105 can correspondingly slide on the supporting table 104, the two-direction sliding table 106 and the two-direction sliding table 105 can finish the adjustment of the horizontal position of the microscope body 101 through the Y-direction sliding table 106, finally, the driving bevel gear 115 can be driven to rotate through the driving motor 116 under the driving of the driving bevel gear 115, the lifting bevel gear 109 can be driven to rotate through the driving bevel gear 109, the lifting frame 108 can be driven to move on the lifting frame 108, and the three-direction sliding member can be conveniently and quickly and accurately adjusted through the Y-direction sliding frame 107, and the three-direction microscope body is more convenient to realize the adjustment of the position of the microscope body 101.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (5)

1. An intelligent electric control portable metallographic microscope comprises a microscope body, a magnetic seat and a magnetic locking spanner, and is characterized in that,

the device also comprises a mounting assembly;

the mounting assembly comprises a supporting table, a two-way sliding table, a Y-way sliding table, a lifting member and a driving member; the support table is fixedly connected with the magnetic seat and is positioned on one side of the magnetic seat, the two-way sliding table is in sliding connection with the support table and is positioned on one side of the support table, the Y-direction sliding table is connected with the microscope body through the lifting member and is slidably mounted on one side of the two-way sliding table, the lifting member is connected with the microscope body, and the driving member is connected with the two-way sliding table.

2. The intelligent electronic control portable metallographic microscope according to claim 1, wherein,

the lifting member comprises a movable frame, a lifting screw and a driving part, wherein the movable frame is fixedly connected with the supporting table and is positioned at one side of the supporting table; the lifting frame is fixedly connected with the microscope body and is slidably arranged on one side of the lifting frame; the lifting screw is in threaded connection with the lifting frame and is rotatably arranged on one side of the movable frame; the driving part is connected with the lifting screw.

3. The intelligent electronic control portable metallographic microscope according to claim 1, wherein,

the driving component comprises a connecting block, a moving screw, a moving motor, a sleeved shell and a sliding component, wherein the connecting block is fixedly connected with the Y-direction sliding table and is positioned at one side of the Y-direction sliding table; the movable screw is in threaded connection with the two-way sliding table and is rotatably arranged on one side of the connecting block; the output shaft of the mobile motor is connected with the mobile screw rod, and the mobile motor is fixedly arranged on one side of the connecting block; the sleeved shell is fixedly connected with the connecting block and sleeved on the mobile motor; the sliding member is connected to the two-way sliding table.

4. The intelligent electronic control portable metallographic microscope according to claim 2, wherein,

the driving component comprises a sleeved bevel gear, a driving motor and a protective shell, wherein the sleeved bevel gear is fixedly connected with the lifting screw and sleeved on the lifting screw; the driving bevel gear is meshed with the sleeved bevel gear and is rotatably arranged on one side of the movable frame; the output shaft of the driving motor is connected with the driving bevel gear, and the driving motor is fixedly arranged at one side of the movable frame; the protective shell is fixedly connected with the movable frame and fixedly installed on one side of the movable frame.

5. The intelligent electronic control portable metallographic microscope according to claim 3, wherein,

the sliding part comprises a fixed block, a sliding screw rod, a sliding motor and a mounting shell, wherein the fixed block is fixedly connected with the two-way sliding table and is positioned at one side of the two-way sliding table; the sliding screw is in threaded connection with the supporting table and is rotatably arranged on one side of the fixed block; the output shaft of the sliding motor is connected with the sliding screw rod, and the sliding motor is fixedly arranged on one side of the fixed block; the installation shell is fixedly connected with the fixed block and sleeved on the sliding motor.