CN111468947A - Portable terminal section analyzer - Google Patents

Abstract

The invention relates to a portable terminal section analyzer, wherein a terminal cutting and grinding device, a section image acquisition device and a tool storage device are fixedly arranged in a box body, a moving assembly drives a terminal clamp to move towards a terminal cutting mechanism at a constant speed, the terminal cutting mechanism performs constant-speed cutting on a terminal, and cuttings generated during terminal cutting are collected in a cuttings collection mechanism; after grinding is finished, the terminal clamp is placed in a section image acquisition device to acquire an image of a terminal section, so that the terminal section is analyzed; the terminal cutting mechanism uses the moving assembly to drive the terminal clamp to move towards the terminal cutting mechanism at a constant speed, so that the terminal section is cut at a constant speed, the quality of a cut surface is high, the cutting precision is high, and the detection effect is accurate; terminal cutting grinder, section image acquisition device and the equal fixed mounting of instrument storage device are in the box, and the exquisiteness is easily carried, and simple easy operation has greatly improved the speed that pencil terminal section detected.

Description

Portable terminal section analyzer

Technical Field

The invention relates to the technical field of terminal section detection equipment, in particular to a portable terminal section analyzer.

Background

With the continuous development of wire harness technology and the improvement of wire harness terminals on product safety, the quality requirements of various industries on the wire harness terminals are higher and higher, the terminals need to be crimped on cables through a terminal crimping machine during cable production, the existing terminals include IDC terminals, OTP terminals and the like, in order to detect the performance of the terminals, a cross section is cut out after silica gel is packaged, and then the cross section is observed under a magnifying glass for cross section analysis, the cross section analysis is an important means for performing crimping quality evidence from a microscopic level, and the people in the industry accept the cross section analysis more and more.

The section analysis process can be roughly divided into terminal cutting, grinding, corrosion cleaning, section image acquisition and wire harness terminal image measurement and analysis. The cutting and grinding of the terminal are the most basic work of detection, the two processes are separately performed in the past, and due to the fact that no fixed clamp is arranged, the cutting and grinding process often encounters the situations of deformation of wire biting teeth or flying of core wires and the like, time consumption, labor waste and unsafety are achieved, the follow-up processes are greatly affected, the whole production efficiency is low, and the measurement accuracy is difficult to improve.

In order to solve the above problems, chinese patent No. 200920090609.7 discloses a cutting and grinding mechanism in a profile workbench, which solves the above problems, but when the device is used for cutting, the terminal needs to be manually pushed to cut, the quality of a cutting surface is poor, the cutting precision is low, and the detection effect is affected.

And moreover, different devices are required to be used for operation in the steps of terminal cutting, grinding, corrosion cleaning, section image acquisition, wire harness terminal image measurement and analysis and the like, no connection exists among the devices, the devices need to be transported independently, and the carrying is inconvenient.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the problems that terminal cutting equipment needs to manually push a terminal to cut in the existing section analysis equipment, the quality of a cutting surface is poor, the cutting precision is low, the detection effect is influenced, no connection exists among the equipment, and the carrying is inconvenient, a portable terminal section analyzer is provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: a portable terminal section analyzer characterized in that: the method comprises the following steps: the terminal cutting and grinding device comprises a box body, a terminal cutting and grinding device, a section image acquisition device and a tool storage device;

the terminal cutting and grinding device is arranged in the box body and comprises:

terminal cutting mechanism: the terminal cutting device is used for cutting a section of the terminal;

terminal grinds mechanism: the terminal grinding mechanism and the terminal cutting mechanism are arranged at intervals and are used for grinding the terminal section;

terminal clamp: the terminal clamp is positioned above the terminal grinding mechanism and the terminal cutting mechanism and used for clamping and fixing the terminal;

the clamp moving mechanism comprises: the fixture moving mechanism comprises a guide assembly and a moving assembly, the guide assembly is arranged on the same side of the terminal cutting mechanism and the terminal grinding mechanism, the terminal fixture is detachably mounted on the guide assembly, and the moving assembly drives the terminal fixture to move towards the terminal cutting mechanism at a constant speed;

chip collection mechanism: the chip collecting mechanism is positioned below the terminal cutting mechanism and used for collecting chips during terminal cutting;

the section image acquisition device is arranged in the box body and is used for acquiring images of the terminal sections;

the tool storage device is arranged in the box body and used for placing detection tools.

The portable terminal section analyzer is characterized in that a terminal cutting and grinding device, a section image acquisition device and a tool storage device are fixedly arranged in a box body, when the portable terminal section analyzer is used, a terminal is clamped on a terminal clamp, the terminal clamp is arranged on a guide assembly, a moving assembly drives the terminal clamp to move towards a terminal cutting mechanism at a constant speed, when the terminal moves at a constant speed, the terminal cutting mechanism performs constant-speed cutting on the terminal, and cutting scraps generated during terminal cutting are collected in a scrap collecting mechanism; after cutting, moving the terminal to a terminal grinding mechanism along the guide assembly for grinding, after grinding, placing the terminal clamp into a section image acquisition device for corrosion cleaning, and then carrying out image acquisition on the terminal section, wherein the section image acquisition device is connected with computer software so as to analyze the terminal section; the terminal cutting mechanism uses the moving assembly to drive the terminal clamp to move towards the terminal cutting mechanism at a constant speed, so that the terminal section is cut at a constant speed, the quality of a cut surface is high, the cutting precision is high, and the detection effect is accurate; terminal cutting grinder, section image acquisition device and the equal fixed mounting of instrument storage device are in the box, and the exquisiteness is easily carried, and simple easy operation, detection personnel can accomplish the sectional processing analysis of pencil terminal in 3 ~ 5 minutes, have greatly improved the speed that pencil terminal section detected.

Further, for the change of convenient cutting piece, terminal cutting mechanism includes cutting motor and cutting piece, cutting motor fixed mounting is in the bottom half, the coaxial fixed mounting of output of cutting motor has the mount pad, demountable installation has the pressure disk on the mount pad, the fixed oppression of cutting piece is between pressure disk and mount pad. The cutting motor drives the mounting seat to rotate, the mounting seat drives the cutting blade to rotate, and the terminal can be cut after the cutting blade rotates. The pressure disk is through pressing a screw demountable installation on the mount pad, when changing the cutting piece, anticlockwise unscrews and presses a screw, takes off the pressure disk, changes new cutting piece and buckles the pressure disk gently after cleaning the pressure disk, screws and presses a screw, and the change finishes. The cutting blade adopts a German Woltov ultrahigh-precision cutting blade.

For the convenience of changing grinding abrasive paper, the terminal grinding mechanism is including grinding the motor, grind motor fixed mounting in the box, and set up with the cutting motor interval, the coaxial fixed mounting of output of grinding the motor has the abrasive disc, demountable installation has grinding abrasive paper on the abrasive disc, grinding abrasive paper's upper surface is not less than the upper surface of cutting piece, the terminal anchor clamps are located grinding abrasive paper's top. The grinding motor rotates to drive the grinding disc to rotate, the grinding disc rotates to drive the grinding abrasive paper to rotate, and the grinding abrasive paper can grind the terminal section after rotating; grinding abrasive paper is gum abrasive paper, and gum abrasive paper is formed by high-quality metallography sand and the preparation of import non-setting adhesive, and gum abrasive paper can paste on the abrasive disc, has realized grinding abrasive paper demountable installation on the abrasive disc, when changing gum abrasive paper, with the perk gently of blade with gum abrasive paper edge with its back of pulling up gently, the surface is with the clean back change new abrasive paper of alcohol can.

The guide assembly comprises a mounting plate, the mounting plate is fixedly mounted in the box body, a transverse guide assembly is fixedly mounted on the mounting plate, and a longitudinal adjusting assembly is fixedly mounted on the transverse guide assembly;

the transverse guide assembly comprises a transverse guide rail, the transverse guide rail is positioned at the same side of the cutting motor and the grinding motor, a transverse sliding block is arranged on the transverse guide rail in a sliding and clamping manner, and the longitudinal adjusting assembly is fixedly arranged on the transverse sliding block;

the vertical adjusting part comprises a vertical guide rail, a vertical sliding block is arranged on the vertical guide rail in a sliding clamping mode, the terminal clamp is detachably mounted on the vertical sliding block, a vertical micro motor is fixedly mounted on the vertical guide rail, an adjusting screw rod is fixedly mounted at the extending end of the vertical micro motor in a coaxial mode, the adjusting screw rod is arranged in parallel with the vertical guide rail, and the adjusting screw rod is mounted on the vertical sliding block in a threaded mode. The terminal clamp is detachably mounted on the longitudinal sliding block, the longitudinal sliding block drives the terminal clamp to lift, and finally the cutting length of the terminal is determined.

Further, the moving assembly comprises a moving micro motor, the moving micro motor is fixedly installed below the installation plate and is arranged opposite to the grinding motor, a rubber wheel is coaxially and fixedly installed at the extending end of the moving micro motor, a friction plate is fixedly installed on the transverse sliding block, a guide hole is formed in the installation plate, the friction plate is inserted into the guide hole and is overlapped with the rubber wheel, a first proximity switch and a second proximity switch are fixedly installed on the installation plate, a photoelectric through hole is formed in the friction plate, the first proximity switch and the second proximity switch are respectively located on two sides of the photoelectric through hole, and when the first proximity switch is opposite to the photoelectric through hole, the moving micro motor rotates reversely; when the second proximity switch is opposite to the friction plate, the grinding motor stops rotating. When cutting, a cutting motor is started, the cutting motor drives a cutting sheet to rotate, a friction plate is moved to a rubber wheel along a transverse guide rail, the friction plate is in contact with the rubber wheel, the rubber wheel drives the friction plate to move through friction force, the friction plate drives a transverse sliding block to move to the rubber wheel, the transverse sliding block drives a terminal to move to the cutting sheet, the terminal in a terminal clamp on the transverse sliding block is cut by the cutting sheet, when a first proximity switch is opposite to a photoelectric through hole, the terminal is cut, the first proximity switch controls a movable micro motor to rotate reversely, the rubber wheel is driven to rotate reversely, the rubber wheel drives the friction plate to move reversely after rotating reversely, the friction plate moves reversely to a grinding disc to grind a section, when a second proximity switch is opposite to the friction plate, grinding is finished, and the grinding motor stops rotating.

The smear metal collecting mechanism comprises a collecting hopper and an aggregate drawer, the collecting hopper is fixedly installed between a cutting motor and a grinding motor, one side of an upper feed inlet of the collecting hopper is fixedly provided with a guide plate, the guide plate extends to the lower side of a cutting blade, the aggregate drawer is slidably installed on the box body, the aggregate drawer is located under a discharge port of the collecting hopper, and one end of the aggregate drawer extends out of the box body.

The section image acquisition device comprises a microscope, a microscope mounting mechanism, a microscope fixing mechanism and a terminal bearing mechanism;

the microscope mounting mechanism comprises a mounting block, the mounting block is fixedly mounted on the mounting plate, a mounting opening is formed in the mounting block, a supporting rod is rotatably mounted in the mounting opening, the microscope is fixedly mounted on the supporting rod and arranged in parallel with the supporting rod, a pin hole is formed in the supporting rod, a bolt is slidably mounted on the mounting block, and when the supporting rod is vertically arranged, the bolt is inserted in the pin hole;

the microscope fixing mechanism comprises a lower fixing block, the lower fixing block is fixedly arranged in the box body, an upper fixing block is rotatably arranged on the lower fixing block, a lower fixing opening is formed in the lower fixing block, an upper fixing opening is formed in the upper fixing block, a locking screw is arranged on the upper fixing block in a threaded manner, a threaded hole is formed in the lower fixing block, and when the locking screw is arranged in the threaded hole in a threaded manner, a microscope is clamped in the upper fixing opening and the lower fixing opening;

the terminal bearing mechanism comprises an object stage, an X-axis adjusting assembly, a Y-axis adjusting assembly and a Z-axis adjusting assembly; the Z-axis adjusting assembly comprises a Z-axis guide rail, the Z-axis guide rail is fixedly installed on the objective table, a Z-axis sliding block is arranged on the Z-axis guide rail in a sliding clamping mode, an adjusting block is fixedly installed on the Z-axis guide rail, a Z-axis screw rod is installed on the adjusting block in a threaded mode, the lower end of the Z-axis screw rod is connected with the Z-axis sliding block through a bearing, a Z-axis adjusting knob is fixedly installed at the upper end of the Z-axis screw rod, and a Z-axis adjusting plate is fixedly installed on the Z; the Y-axis adjusting assembly comprises a Y-axis guide rail, the Y-axis guide rail is fixedly installed on a Z-axis adjusting plate, a Y-axis adjusting plate is installed on the Y-axis guide rail in a sliding mode through a Y-axis sliding block, a Y-axis rack is fixedly installed on the Y-axis adjusting plate, a Y-axis gear is rotatably installed on the Z-axis adjusting plate, the Y-axis gear is meshed with the Y-axis rack, and a Y-axis adjusting knob is coaxially and fixedly installed on the Y-axis gear; x axle adjusting part includes the X axle guide rail, fixed mounting is on the Y axle regulating plate on the X axle guide rail, there is the X axle regulating plate through X axle slider slidable mounting on the X axle guide rail, fixed mounting has the X axle rack on the X axle regulating plate, rotate on the Y axle regulating plate and install X axle gear, X axle gear and X axle rack meshing, coaxial fixed mounting has X axle adjust knob on the X axle gear, offer the spacing recess that is used for placing terminal anchor clamps on the X axle regulating plate.

The terminal anchor clamps include the anchor clamps body, fixed mounting has first splint on the anchor clamps body, the terminal clamp mouth has been seted up on the first splint, the anchor clamps screw rod is installed to the last screw thread of the anchor clamps body, the one end of anchor clamps screw rod is passed through the bearing and is rotated and install second splint, and the coaxial fixed mounting of the other end has anchor clamps adjust knob, fixed mounting has the guide bar on the first splint, second splint slip cap is established on two guide bars.

The tool storage device comprises a storage box, wherein a correction ruler holding tank, an electrolytic pen holding tank, an electronic eyepiece holding tank and a terminal clamp holding tank are arranged in the storage box. The correcting ruler holding tank is used for placing the correcting ruler, the electrolytic pen holding tank is used for placing the electrolytic pen, the electronic eyepiece holding tank is used for placing the electronic eyepiece, the terminal fixture holding tank is used for placing the terminal fixture, required tools are placed in the box during measurement, and the correcting ruler holding tank is exquisite and easy to carry.

Still include control assembly, control assembly includes mounting disc and controller, first proximity switch, second proximity switch, removal micro motor, cutting motor and grinding motor all are connected with the controller electricity, fixed mounting has master switch and removal micro motor switch on the mounting disc, master switch and removal micro motor switch all are connected with the controller electricity. The controller is used for controlling the mobile micro motor, the cutting motor and the grinding motor, so that semi-automation is realized, and the speed of detecting the section of the wire harness terminal is increased.

The portable terminal section analyzer has the beneficial effects that the terminal cutting and grinding device, the section image acquisition device and the tool storage device are fixedly arranged in the box body, when the portable terminal section analyzer is used, a terminal is clamped on the terminal clamp, the terminal clamp is arranged on the guide assembly, the moving assembly drives the terminal clamp to move towards the terminal cutting mechanism at a constant speed, when the terminal moves at a constant speed, the terminal cutting mechanism performs constant-speed cutting on the terminal, and cutting scraps generated during terminal cutting are collected in the scrap collecting mechanism; after cutting, moving the terminal to a terminal grinding mechanism along the guide assembly for grinding, after grinding, placing the terminal clamp into a section image acquisition device for corrosion cleaning, and then carrying out image acquisition on the terminal section, wherein the section image acquisition device is connected with computer software so as to analyze the terminal section; the terminal cutting mechanism uses the moving assembly to drive the terminal clamp to move towards the terminal cutting mechanism at a constant speed, so that the terminal section is cut at a constant speed, the quality of a cut surface is high, the cutting precision is high, and the detection effect is accurate; terminal cutting grinder, section image acquisition device and the equal fixed mounting of instrument storage device are in the box, and the exquisiteness is easily carried, and simple easy operation, detection personnel can accomplish the sectional processing analysis of pencil terminal in 3 ~ 5 minutes, have greatly improved the speed that pencil terminal section detected.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a three-dimensional schematic of the present invention;

FIG. 2 is a three-dimensional schematic view of the present invention without the enclosure and safety shield installed;

FIG. 3 is a front view of FIG. 2 of the present invention;

FIG. 4 is a top view of FIG. 2 of the present invention;

FIG. 5 is a left side view of FIG. 2 in accordance with the present invention;

FIG. 6 is a right side view of FIG. 2 in accordance with the present invention;

FIG. 7 is a three-dimensional assembly schematic of the terminal cutting mechanism, terminal grinding mechanism and chip collection mechanism of the present invention;

FIG. 8 is a front view of FIG. 7 in accordance with the present invention;

FIG. 9 is a three-dimensional schematic view of the clamp moving mechanism of the present invention;

FIG. 10 is a rear view of FIG. 9 in accordance with the present invention;

FIG. 11 is a left side view of FIG. 9 in accordance with the present invention;

FIG. 12 is a three-dimensional schematic view of a cross-sectional image capturing apparatus according to the present invention;

fig. 13 is a three-dimensional schematic view of a terminal support mechanism of the present invention;

FIG. 14 is a front view of FIG. 13 in accordance with the present invention;

FIG. 15 is a left side view of FIG. 13 in accordance with the present invention;

fig. 16 is a three-dimensional schematic view of a terminal fixture according to the present invention.

In the figure: 1. the terminal grinding device comprises a box body, 2, a terminal cutting grinding device, 2, 1, a terminal cutting mechanism, 2, 1, a cutting motor, 2, 1, 2, a cutting sheet, 2, 1, 3, a mounting seat, 2, 1, 4, a pressure plate, 2, 1, a grinding motor, 2, 3, a terminal clamp, 2, 3, 1, a clamp body, 2, 3, 2, a first clamping plate, 2, 3, 2, 1, a terminal clamping opening, 2, 3, a clamp screw, 2, 3, 4, a second clamping plate, 2, 3, 5, a clamp adjusting knob, 2, 3, 6, a guide rod and 2, 4, a clamp moving mechanism, 2-4-1 parts of mounting plate, 2-4-2 parts of transverse guide rail, 2-4-3 parts of transverse sliding block, 2-4-4 parts of longitudinal guide rail, 2-4-5 parts of longitudinal sliding block, 2-4-6 parts of longitudinal micro motor, 2-4-7 parts of adjusting screw rod, 2-4-8 parts of moving micro motor, 2-4-9 parts of rubber wheel, 2-4-10 parts of friction plate, 2-4-10-1 parts of photoelectric through hole, 2-4-11 parts of first proximity switch, 2-4-12 parts of second proximity switch, 2-5 parts of cutting scrap collecting mechanism, 2-5-1 parts of collecting hopper, 2-5-2 parts of collecting drawer and 2-5-3 parts of guide plate, 3. a section image acquisition device, 3-1 a microscope, 3-2 a microscope mounting mechanism, 3-2-1 an mounting block, 3-2-1-1 an mounting opening, 3-2-2 a support rod, 3-2-3 a bolt, 3-3 a microscope fixing mechanism, 3-3-1 a lower fixing block, 3-3-2 an upper fixing block, 3-3-3 a locking screw, 3-4 a terminal bearing mechanism, 3-4-1 an object stage, 3-4-2 a Z-axis guide rail, 3-4-3 a Z-axis sliding block, 3-4-4 an adjusting block, 3-4-5 a Z-axis screw rod, 3-4-6 a Z-axis adjusting knob, 3-4-7 a Z-axis adjusting plate, 3-4-8 of a Y-axis guide rail, 3-4-9 of a Y-axis sliding block, 3-4-10 of a Y-axis adjusting plate, 3-4-11 of a Y-axis rack, 3-4-12 of a Y-axis gear, 3-4-13 of a Y-axis adjusting knob, 3-4-14 of an X-axis guide rail, 3-4-15 of an X-axis sliding block, 3-4-16 of an X-axis adjusting plate, 3-4-17 of an X-axis rack, 3-4-18 of an X-axis gear, 3-4-19 of an X-axis adjusting knob, 4 of a tool accommodating device, 4-1 of an accommodating box, 4-1-1 of an aligning ruler accommodating groove, 4-1-2 of an electrolytic pen accommodating groove, 4-1-3 of an electronic eyepiece accommodating groove, and 4-1-4 of a terminal clamp accommodating groove, 5. the control assembly, 5-1, an installation plate, 5-2, a main switch, 5-3, a movable micro motor switch and 6, a safety cover.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

A portable terminal cross-section analyzer shown in fig. 1 and 2, characterized in that: the method comprises the following steps: the terminal cutting and grinding device comprises a box body 1, a terminal cutting and grinding device 2, a section image acquisition device 3 and a tool storage device 4;

the terminal cutting and grinding device 2 is arranged in the box body 1, a safety cover 6 can be covered on the terminal cutting and grinding device 2, and the terminal cutting and grinding device 2 comprises:

terminal cutting mechanism 2-1: the terminal cutting device is used for cutting a section of the terminal;

terminal grinding mechanism 2-2: the terminal grinding mechanism 2-2 and the terminal cutting mechanism 2-1 are arranged at intervals and used for grinding the terminal section;

terminal clamp 2-3: the terminal clamp 2-3 is positioned above the terminal grinding mechanism 2-2 and the terminal cutting mechanism 2-1 and is used for clamping and fixing the terminal;

the clamp moving mechanism 2-4: the clamp moving mechanism 2-4 comprises a guide assembly and a moving assembly, the guide assembly is arranged on the same side of the terminal cutting mechanism 2-1 and the terminal grinding mechanism 2-2, the terminal clamp 2-3 is detachably mounted on the guide assembly, and the moving assembly drives the terminal clamp 2-3 to move towards the terminal cutting mechanism 2-1 at a constant speed;

chip collecting mechanism 2-5: the chip collecting mechanism 2-5 is positioned below the terminal cutting mechanism 2-1 and is used for collecting chips during terminal cutting;

the section image acquisition device 3 is arranged in the box body 1 and is used for acquiring images of the terminal sections;

the tool storage device 4 is arranged in the box body 1 and used for placing detection tools.

The terminal cutting mechanism 2-1 comprises a cutting motor 2-1-1 and cutting blades 2-1-2, the cutting motor 2-1-1 is fixedly installed at the bottom of the box body 1, an installation seat 2-1-3 is coaxially and fixedly installed at the output end of the cutting motor 2-1-1, as shown in figure 8, a pressure plate 2-1-4 is detachably installed on the installation seat 2-1-3, and the cutting blades 2-1-2 are fixedly pressed between the pressure plate 2-1-4 and the installation seat 2-1-3. The cutting motor 2-1-1 drives the mounting seat 2-1-3 to rotate, the mounting seat 2-1-3 drives the cutting blade 2-1-2 to rotate, and the terminal can be cut after the cutting blade 2-1-2 rotates. The pressure plate 2-1-4 is detachably mounted on the mounting base 2-1-3 through a pressure shaft screw, when the cutting piece 2-1-2 is replaced, the pressure shaft screw is unscrewed anticlockwise, the pressure plate 2-1-4 is taken down, the pressure plate 2-1-4 is cleaned, a new cutting piece 2-1-2 is replaced, the pressure plate 2-1-4 is lightly buckled, the pressure shaft screw is screwed, and the replacement is finished. The cutting blade 2-1-2 adopts a German Woltov ultrahigh precision cutting blade 2-1-2.

The terminal grinding mechanism 2-2 comprises a grinding motor 2-2-1, the grinding motor 2-2-1 is fixedly installed in the box body 1 and is arranged at an interval with the cutting motor 2-1-1, a grinding disc 2-2-2 is coaxially and fixedly installed at the output end of the grinding motor 2-2-1, as shown in fig. 7, grinding abrasive paper is detachably installed on the grinding disc 2-2-2, the upper surface of the grinding abrasive paper is not lower than that of the cutting piece 2-1-2, and the terminal clamp 2-3 is located above the grinding abrasive paper. The grinding motor 2-2-1 rotates to drive the grinding disc 2-2-2 to rotate, the grinding disc 2-2-2 rotates to drive the grinding abrasive paper to rotate, and the grinding abrasive paper rotates to grind the terminal section; the abrasive paper is gum abrasive paper which is made of high-quality metallographic sand and imported non-setting adhesive and can be stuck on the grinding disc 2-2-2, so that the abrasive paper can be detachably mounted on the grinding disc 2-2-2, when the gum abrasive paper is replaced, the edge of the gum abrasive paper is slightly tilted by a blade to slightly pull the edge, and the surface is cleaned by alcohol and then replaced by new abrasive paper.

The guide assembly comprises a mounting plate 2-4-1, the mounting plate 2-4-1 is fixedly mounted in the box body 1, a transverse guide assembly is fixedly mounted on the mounting plate 2-4-1, and a longitudinal adjusting assembly is fixedly mounted on the transverse guide assembly;

the transverse guide assembly comprises a transverse guide rail 2-4-2, as shown in fig. 9, the transverse guide rail 2-4-2 is located on the same side of the cutting motor 2-1-1 and the grinding motor 2-2-1, a transverse sliding block 2-4-3 is arranged on the transverse guide rail 2-4-2 in a sliding and clamping mode, and the longitudinal adjusting assembly is fixedly installed on the transverse sliding block 2-4-3;

the longitudinal adjusting assembly comprises a longitudinal guide rail 2-4-4, a longitudinal sliding block 2-4-5 is arranged on the longitudinal guide rail 2-4-4 in a sliding clamping mode, the terminal clamp 2-3 is detachably mounted on the longitudinal sliding block 2-4-5, a longitudinal micro motor 2-4-6 is fixedly mounted on the longitudinal guide rail 2-4-4, an adjusting screw rod 2-4-7 is coaxially and fixedly mounted at the extending end of the longitudinal micro motor 2-4-6, the adjusting screw rod 2-4-7 is arranged in parallel with the longitudinal guide rail 2-4-4, and the adjusting screw rod 2-4-7 is mounted on the longitudinal sliding block 2-4-5 in a threaded mode. A threaded hole is formed in the longitudinal sliding block 2-4-5, an adjusting screw 2-4-7 is installed in the threaded hole in a threaded mode, the longitudinal micro motor 2-4-6 rotates to drive the adjusting screw 2-4-7 to rotate, the length of the adjusting screw 2-4-7 extending into the threaded hole is changed after the adjusting screw 2-4-7 rotates, accordingly, the longitudinal sliding block 2-4-5 is lifted, the terminal clamp 2-3 is detachably installed on the longitudinal sliding block 2-4-5, the longitudinal sliding block 2-4-5 drives the terminal clamp 2-3 to lift, and finally the cutting length of the terminal is determined.

The moving assembly comprises a moving micro motor 2-4-8, the moving micro motor 2-4-8 is fixedly arranged below a mounting plate 2-4-1 and is arranged opposite to a grinding motor 2-2-1, the extending end of the moving micro motor 2-4-8 is coaxially and fixedly provided with a rubber wheel 2-4-9, as shown in figures 5 and 11, a friction plate 2-4-10 is fixedly arranged on a transverse sliding block 2-4-3, a guide hole is formed in the mounting plate 2-4-1, the friction plate 2-4-10 is inserted in the guide hole and is overlapped with the rubber wheel 2-4-9, a first proximity switch 2-4-11 and a second proximity switch 2-4-12 are fixedly arranged on the mounting plate 2-4-1, as shown in fig. 10, the friction plate 2-4-10 is provided with a photoelectric through hole 2-4-10-1, the first proximity switch 2-4-11 and the second proximity switch 2-4-12 are respectively located at two sides of the photoelectric through hole 2-4-10-1, and when the first proximity switch 2-4-11 is opposite to the photoelectric through hole 2-4-10-1, the mobile micro motor 2-4-8 is reversely rotated; when the second proximity switch 2-4-12 is opposite to the friction plate 2-4-10, the grinding motor 2-2-1 stops rotating. When cutting, the cutting motor 2-1-1 is started, the cutting motor 2-1-1 drives the cutting blade 2-1-2 to rotate, the friction plate 2-4-10 is moved to the rubber wheel 2-4-9 along the transverse guide rail 2-4-2, the friction plate 2-4-10 is contacted with the rubber wheel 2-4-9, the rubber wheel 2-4-9 drives the friction plate 2-4-10 to move through friction force, the friction plate 2-4-10 drives the transverse sliding block 2-4-3 to move to the rubber wheel 2-4-9, the transverse sliding block 2-4-3 drives the terminal to move to the cutting blade 2-1-2, the terminal in the terminal clamp 2-3 on the transverse sliding block 2-4-3 is cut by the cutting blade 2-1-2, when the first proximity switch 2-4-11 is opposite to the photoelectric through hole 2-4-10-1, the terminal cutting is completed, the first proximity switch 2-4-11 controls the movable micro motor 2-4-8 to rotate reversely to drive the rubber wheel 2-4-9 to rotate reversely, the rubber wheel 2-4-9 drives the friction plate 2-4-10 to move reversely after rotating reversely, the friction plate 2-4-10 moves reversely to the grinding disc 2-2-2 to grind the section, when the second proximity switch 2-4-12 is opposite to the friction plate 2-4-10, the grinding is finished, and the grinding motor 2-2-1 stops rotating.

The chip collecting mechanism 2-5 comprises a collecting hopper 2-5-1 and a collecting drawer 2-5-2, the collecting hopper 2-5-1 is fixedly arranged between the cutting motor 2-1-1 and the grinding motor 2-2-1, a material guide plate 2-5-3 is fixedly arranged on one side of the upper feeding opening of the collecting hopper 2-5-1, the material guide plate 2-5-3 extends to the lower part of the cutting blade 2-1-2, the collection drawer 2-5-2 is arranged on the box body 1 in a sliding way, the collection drawer 2-5-2 is positioned right below the discharge port of the collection hopper 2-5-1, as shown in figure 3, one end of the aggregate drawer 2-5-2 extends out of the box body 1.

The section image acquisition device 3 comprises a microscope 3-1, a microscope mounting mechanism 3-2, a microscope fixing mechanism 3-3 and a terminal bearing mechanism 3-4, as shown in fig. 12;

the microscope mounting mechanism 3-2 comprises a mounting block 3-2-1, the mounting block 3-2-1 is fixedly mounted on a mounting plate 2-4-1, the mounting block 3-2-1 is provided with a mounting opening 3-2-1-1, the supporting rod 3-2-2 is rotatably arranged in the mounting opening 3-2-1-1, the microscope 3-1 is fixedly arranged on the supporting rod 3-2-2, and is arranged in parallel with the support rod 3-2-2, the support rod 3-2-2 is provided with a pin hole, a bolt 3-2-3 is arranged on the mounting block 3-2-1 in a sliding way, when the supporting rod 3-2-2 is vertically arranged, the bolt 3-2-3 is inserted into the pin hole;

the microscope fixing mechanism 3-3 comprises a lower fixing block 3-3-1, the lower fixing block 3-3-1 is fixedly installed in the box body 1, an upper fixing block 3-3-2 is rotatably installed on the lower fixing block 3-3-1, as shown in fig. 6, a lower fixing opening is formed in the lower fixing block 3-3-1, an upper fixing opening is formed in the upper fixing block 3-3-2, a locking screw 3-3-3 is installed on the upper fixing block 3-3-2 in a threaded manner, a threaded hole is formed in the lower fixing block 3-3-1, and when the locking screw 3-3-3 is installed in the threaded hole in a threaded manner, the microscope 3-1 is clamped in the upper fixing opening and the lower fixing opening;

the terminal bearing mechanism 3-4 comprises an object stage 3-4-1, an X-axis adjusting assembly, a Y-axis adjusting assembly and a Z-axis adjusting assembly; as shown in fig. 13, 14 and 15, the Z-axis adjustment assembly includes a Z-axis guide rail 3-4-2, the Z-axis guide rail 3-4-2 is fixedly arranged on the objective table 3-4-1, a Z-axis slide block 3-4-3 is arranged on the Z-axis guide rail 3-4-2 in a sliding manner, an adjusting block 3-4-4 is fixedly arranged on the Z-axis guide rail 3-4-2, the adjusting block 3-4-4 is provided with a Z-axis screw rod 3-4-5 through threads, the lower end of the Z-axis screw rod 3-4-5 is connected with the Z-axis sliding block 3-4-3 through a bearing, the upper end is fixedly provided with a Z-axis adjusting knob 3-4-6, a Z-axis adjusting plate 3-4-7 is fixedly arranged on the Z-axis sliding block 3-4-3; the Y-axis adjusting assembly comprises a Y-axis guide rail 3-4-8, the Y-axis guide rail 3-4-8 is fixedly installed on a Z-axis adjusting plate 3-4-7, a Y-axis adjusting plate 3-4-10 is installed on the Y-axis guide rail 3-4-8 in a sliding mode through a Y-axis sliding block 3-4-9, a Y-axis rack 3-4-11 is fixedly installed on the Y-axis adjusting plate 3-4-10, a Y-axis gear 3-4-12 is installed on the Z-axis adjusting plate 3-4-7 in a rotating mode, the Y-axis gear 3-4-12 is meshed with the Y-axis rack 3-4-11, and a Y-axis adjusting knob 3-4-13 is coaxially and fixedly installed on the Y-axis gear 3-4-12; the X-axis adjusting assembly comprises an X-axis guide rail 3-4-14, the X-axis guide rail 3-4-14 is fixedly installed on a Y-axis adjusting plate 3-4-10, the X-axis guide rail 3-4-14 is provided with an X-axis adjusting plate 3-4-16 through an X-axis sliding block 3-4-15 in a sliding mode, the X-axis adjusting plate 3-4-16 is fixedly provided with an X-axis rack 3-4-17, the Y-axis adjusting plate 3-4-10 is provided with an X-axis gear 3-4-18 in a rotating mode, the X-axis gear 3-4-18 is meshed with the X-axis rack 3-4-17, an X-axis adjusting knob 3-4-19 is coaxially and fixedly installed on the X-axis gear 3-4-18, and a terminal clamp 2-3 is placed on the X-axis adjusting plate 3-4-16 And a limiting groove.

The terminal fixture 2-3 includes a fixture body 2-3-1, as shown in fig. 16, the first clamping plate 2-3-2 is fixedly arranged on the clamp body 2-3-1, the first clamping plate 2-3-2 is provided with a terminal clamping opening 2-3-2-1, a clamp screw 2-3-3 is arranged on the clamp body 2-3-1 through threads, one end of the clamp screw rod 2-3-3 is rotatably provided with a second clamping plate 2-3-4 through a bearing, the other end is coaxially and fixedly provided with a clamp adjusting knob 2-3-5, the first splint 2-3-2 is fixedly provided with a guide rod 2-3-6, the second clamping plate 2-3-4 is sleeved on the two guide rods 2-3-6 in a sliding manner.

Tool storage device 4 includes receiver 4-1, be provided with in receiver 4-1 and correct chi holding tank 4-1-1, electrolysis pen holding tank 4-1-2, electron eyepiece holding tank 4-1-3 and terminal anchor clamps holding tank 4-1-4. As shown in figure 4, the correction ruler holding tank 4-1-1 is used for holding the correction ruler, the electrolytic pen holding tank 4-1-2 is used for holding the electrolytic pen, the electronic eyepiece holding tank 4-1-3 is used for holding the electronic eyepiece, and the terminal clamp holding tank 4-1-4 is used for holding the terminal clamp 2-3, and tools required during measurement are all placed in the box body 1 and are exquisite and easy to carry.

The automatic cutting machine is characterized by further comprising a control assembly 5, wherein the control assembly 5 comprises a mounting disc 5-1 and a controller, the first proximity switch 2-4-11, the second proximity switch 2-4-12, the movable micro motor 2-4-8, the cutting motor 2-1-1 and the grinding motor 2-2-1 are electrically connected with the controller, a main switch 5-2 and a movable micro motor switch 5-3 are fixedly mounted on the mounting disc 5-1, and the main switch 5-2 and the movable micro motor switch 5-3 are electrically connected with the controller. The invention uses the controller to control the moving micro motor 2-4-8, the cutting motor 2-1-1 and the grinding motor 2-2-1, realizes semi-automation and improves the speed of detecting the section of the wire harness terminal.

According to the portable terminal section analyzer, a terminal cutting and grinding device 2, a section image acquisition device 3 and a tool storage device 4 are fixedly arranged in a box body 1, when the portable terminal section analyzer is used, a terminal is clamped on a terminal clamp 2-3, the terminal clamp 2-3 is arranged on a guide assembly, a moving assembly drives the terminal clamp 2-3 to move towards a terminal cutting mechanism 2-1 at a constant speed, when the terminal moves at the constant speed, the terminal cutting mechanism 2-1 performs constant-speed cutting on the terminal, and chips generated during terminal cutting are collected in a chip collection mechanism 2-5; after cutting, moving the terminal to a terminal grinding mechanism 2-2 along a guide assembly for grinding, after grinding, placing a terminal clamp 2-3 into a section image acquisition device 3 for corrosion cleaning, and then carrying out image acquisition on the section of the terminal, wherein the section image acquisition device 3 is connected with computer software so as to analyze the section of the terminal; the terminal cutting mechanism uses the moving assembly to drive the terminal clamp 2-3 to move towards the terminal cutting mechanism 2-1 at a constant speed, so that the terminal section is cut at a constant speed, the quality of a cutting surface is high, the cutting precision is high, and the detection effect is accurate; terminal cutting grinder 2, section image acquisition device 3 and the equal fixed mounting of instrument storage device 4 are in box 1, and the exquisiteness is easily carried, and simple easy operation, detection personnel can accomplish the sectional processing analysis of pencil terminal in 3 ~ 5 minutes, have greatly improved the speed that pencil terminal section detected.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. A portable terminal section analyzer characterized in that: the method comprises the following steps: the terminal cutting and grinding device comprises a box body (1), a terminal cutting and grinding device (2), a section image acquisition device (3) and a tool storage device (4);

the terminal cutting and grinding device (2) is arranged in the box body (1), and the terminal cutting and grinding device (2) comprises:

terminal cutting mechanism (2-1): the terminal cutting device is used for cutting a section of the terminal;

terminal grinding mechanism (2-2): the terminal grinding mechanism (2-2) and the terminal cutting mechanism (2-1) are arranged at intervals and are used for grinding the terminal section;

terminal holder (2-3): the terminal clamp (2-3) is positioned above the terminal grinding mechanism (2-2) and the terminal cutting mechanism (2-1) and is used for clamping and fixing the terminal;

jig moving mechanism (2-4): the clamp moving mechanism (2-4) comprises a guide assembly and a moving assembly, the guide assembly is arranged on the same side of the terminal cutting mechanism (2-1) and the terminal grinding mechanism (2-2), the terminal clamp (2-3) is detachably mounted on the guide assembly, and the moving assembly drives the terminal clamp (2-3) to move towards the terminal cutting mechanism (2-1) at a constant speed;

chip collection mechanism (2-5): the chip collecting mechanism (2-5) is positioned below the terminal cutting mechanism (2-1) and is used for collecting chips during terminal cutting;

the section image acquisition device (3) is arranged in the box body (1) and is used for acquiring images of the terminal sections;

the tool storage device (4) is arranged in the box body (1) and used for placing detection tools.

2. The portable terminal cross-section analyzer of claim 1, wherein: the terminal cutting mechanism (2-1) comprises a cutting motor (2-1-1) and cutting pieces (2-1-2), the cutting motor (2-1-1) is fixedly installed at the bottom of the box body (1), an installation seat (2-1-3) is installed at the output end of the cutting motor (2-1-1) in a coaxial and fixed mode, a pressure plate (2-1-4) is detachably installed on the installation seat (2-1-3), and the cutting pieces (2-1-2) are fixedly pressed between the pressure plate (2-1-4) and the installation seat (2-1-3).

3. The portable terminal cross-section analyzer of claim 2, wherein: the terminal grinding mechanism (2-2) comprises a grinding motor (2-2-1), the grinding motor (2-2-1) is fixedly installed in the box body (1) and is arranged at an interval with the cutting motor (2-1-1), a grinding disc (2-2-2) is coaxially and fixedly installed at the output end of the grinding motor (2-2-1), grinding abrasive paper is detachably installed on the grinding disc (2-2-2), the upper surface of the grinding abrasive paper is not lower than that of the cutting piece (2-1-2), and the terminal clamp (2-3) is located above the grinding abrasive paper.

4. The portable terminal cross-section analyzer of claim 3, wherein: the guide assembly comprises a mounting plate (2-4-1), the mounting plate (2-4-1) is fixedly mounted in the box body (1), a transverse guide assembly is fixedly mounted on the mounting plate (2-4-1), and a longitudinal adjusting assembly is fixedly mounted on the transverse guide assembly;

the transverse guide assembly comprises a transverse guide rail (2-4-2), the transverse guide rail (2-4-2) is positioned at the same side of the cutting motor (2-1-1) and the grinding motor (2-2-1), a transverse sliding block (2-4-3) is arranged on the transverse guide rail (2-4-2) in a sliding and clamping mode, and the longitudinal adjusting assembly is fixedly installed on the transverse sliding block (2-4-3);

the longitudinal adjusting component comprises a longitudinal guide rail (2-4-4), a longitudinal sliding block (2-4-5) is arranged on the longitudinal guide rail (2-4-4) in a sliding and clamping manner, the terminal clamp (2-3) is detachably arranged on the longitudinal sliding block (2-4-5), the longitudinal guide rail (2-4-4) is fixedly provided with a longitudinal micro motor (2-4-6), the extending end of the longitudinal micro motor (2-4-6) is coaxially and fixedly provided with an adjusting screw rod (2-4-7), the adjusting screw rods (2-4-7) are arranged in parallel with the longitudinal guide rails (2-4-4), and the adjusting screw rods (2-4-7) are installed on the longitudinal sliding blocks (2-4-5) in a threaded mode.

5. The portable terminal cross-section analyzer of claim 4, wherein: the movable assembly comprises a movable micro motor (2-4-8), the movable micro motor (2-4-8) is fixedly installed below the installation plate (2-4-1) and is arranged opposite to the grinding motor (2-2-1), the extending end of the movable micro motor (2-4-8) is coaxially and fixedly provided with a rubber wheel (2-4-9), the transverse sliding block (2-4-3) is fixedly provided with a friction plate (2-4-10), the installation plate (2-4-1) is provided with a guide hole, the friction plate (2-4-10) is inserted into the guide hole and is overlapped with the rubber wheel (2-4-9), and the installation plate (2-4-1) is fixedly provided with a first proximity switch (2-4-11) and a second proximity switch (2-4-11) 4-12), a photoelectric through hole (2-4-10-1) is formed in the friction plate (2-4-10), the first proximity switch (2-4-11) and the second proximity switch (2-4-12) are respectively located on two sides of the photoelectric through hole (2-4-10-1), and when the first proximity switch (2-4-11) is opposite to the photoelectric through hole (2-4-10-1), the mobile micro motor (2-4-8) rotates reversely; when the second proximity switch (2-4-12) is opposite to the friction plate (2-4-10), the grinding motor (2-2-1) stops rotating.

6. The portable terminal cross-section analyzer of claim 3, wherein: the cutting scrap collecting mechanism (2-5) comprises a collecting hopper (2-5-1) and a collecting drawer (2-5-2), wherein the collecting hopper (2-5-1) is fixedly installed between a cutting motor (2-1-1) and a grinding motor (2-2-1), a guide plate (2-5-3) is fixedly installed on one side of an upper feeding hole of the collecting hopper (2-5-1), the guide plate (2-5-3) extends to the lower part of a cutting sheet (2-1-2), the collecting drawer (2-5-2) is slidably installed on a box body (1), and the collecting drawer (2-5-2) is located under a discharging hole of the collecting hopper (2-5-1), one end of the aggregate drawer (2-5-2) extends out of the box body (1).

7. The portable terminal cross-section analyzer of claim 4, wherein: the section image acquisition device (3) comprises a microscope (3-1), a microscope mounting mechanism (3-2), a microscope fixing mechanism (3-3) and a terminal bearing mechanism (3-4);

the microscope mounting mechanism (3-2) comprises a mounting block (3-2-1), the mounting block (3-2-1) is fixedly mounted on a mounting plate (2-4-1), a mounting opening (3-2-1-1) is formed in the mounting block (3-2-1), a supporting rod (3-2-2) is rotatably mounted in the mounting opening (3-2-1-1), the microscope (3-1) is fixedly mounted on the supporting rod (3-2-2) and is parallel to the supporting rod (3-2-2), a pin hole is formed in the supporting rod (3-2-2), a bolt (3-2-3) is slidably mounted on the mounting block (3-2-1), when the supporting rod (3-2-2) is vertically arranged, the bolt (3-2-3) is inserted into the pin hole;

the microscope fixing mechanism (3-3) comprises a lower fixing block (3-3-1), the lower fixing block (3-3-1) is fixedly arranged in the box body (1), the lower fixing block (3-3-1) is rotatably provided with an upper fixing block (3-3-2), the lower fixing block (3-3-1) is provided with a lower fixing opening, an upper fixing opening is arranged on the upper fixing block (3-3-2), a locking screw (3-3-3) is arranged on the upper fixing block (3-3-2) in a threaded manner, a threaded hole is arranged on the lower fixing block (3-3-1), when the locking screw (3-3-3) is arranged in the threaded hole in a threaded manner, the microscope (3-1) is clamped in the upper fixing opening and the lower fixing opening;

the terminal bearing mechanism (3-4) comprises an object stage (3-4-1), an X-axis adjusting assembly, a Y-axis adjusting assembly and a Z-axis adjusting assembly; the Z-axis adjusting component comprises a Z-axis guide rail (3-4-2), the Z-axis guide rail (3-4-2) is fixedly arranged on the objective table (3-4-1), a Z-axis sliding block (3-4-3) is arranged on the Z-axis guide rail (3-4-2) in a sliding manner, an adjusting block (3-4-4) is fixedly arranged on the Z-axis guide rail (3-4-2), a Z-axis screw rod (3-4-5) is arranged on the adjusting block (3-4-4) in a threaded manner, the lower end of the Z-axis screw rod (3-4-5) is connected with a Z-axis sliding block (3-4-3) through a bearing, a Z-axis adjusting knob (3-4-6) is fixedly arranged at the upper end, a Z-axis adjusting plate (3-4-7) is fixedly arranged on the Z-axis sliding block (3-4-3); the Y-axis adjusting component comprises a Y-axis guide rail (3-4-8), the Y-axis guide rail (3-4-8) is fixedly arranged on the Z-axis adjusting plate (3-4-7), a Y-axis adjusting plate (3-4-10) is slidably arranged on the Y-axis guide rail (3-4-8) through a Y-axis sliding block (3-4-9), a Y-axis rack (3-4-11) is fixedly arranged on the Y-axis adjusting plate (3-4-10), a Y-axis gear (3-4-12) is rotatably arranged on the Z-axis adjusting plate (3-4-7), the Y-axis gear (3-4-12) is meshed with the Y-axis rack (3-4-11), and a Y-axis adjusting knob (3-4-13) is coaxially and fixedly installed on the Y-axis gear (3-4-12); the X-axis adjusting assembly comprises an X-axis guide rail (3-4-14), the X-axis guide rail (3-4-14) is fixedly installed on a Y-axis adjusting plate (3-4-10), the X-axis guide rail (3-4-14) is provided with an X-axis adjusting plate (3-4-16) through an X-axis sliding block (3-4-15) in a sliding manner, the X-axis adjusting plate (3-4-16) is fixedly provided with an X-axis rack (3-4-17), the Y-axis adjusting plate (3-4-10) is provided with an X-axis gear (3-4-18) in a rotating manner, the X-axis gear (3-4-18) is meshed with the X-axis rack (3-4-17), and the X-axis gear (3-4-18) is provided with an X-axis adjusting knob (3-4-19) in a coaxial and fixed manner, and the X-axis adjusting plate (3-4-16) is provided with a limiting groove for placing the terminal clamp (2-3).

8. The portable terminal cross-section analyzer of claim 1, wherein: the terminal clamp (2-3) comprises a clamp body (2-3-1), a first clamp plate (2-3-2) is fixedly installed on the clamp body (2-3-1), a terminal clamp opening (2-3-2-1) is formed in the first clamp plate (2-3-2), a clamp screw rod (2-3-3) is installed on the clamp body (2-3-1) in a threaded mode, a second clamp plate (2-3-4) is installed at one end of the clamp screw rod (2-3-3) in a rotating mode through a bearing, a clamp adjusting knob (2-3-5) is coaxially and fixedly installed at the other end of the clamp screw rod, a guide rod (2-3-6) is fixedly installed on the first clamp plate (2-3-2), the second clamping plate (2-3-4) is sleeved on the two guide rods (2-3-6) in a sliding manner.

9. The portable terminal cross-section analyzer of claim 1, wherein: the tool storage device (4) comprises a storage box (4-1), and a correction ruler holding groove (4-1-1), an electrolytic pen holding groove (4-1-2), an electronic eyepiece holding groove (4-1-3) and a terminal clamp holding groove (4-1-4) are arranged in the storage box (4-1).

10. The portable terminal cross-section analyzer of claim 5, wherein: the automatic cutting machine is characterized by further comprising a control assembly (5), wherein the control assembly (5) comprises a mounting disc (5-1) and a controller, the first proximity switch (2-4-11), the second proximity switch (2-4-12), the movable micro motor (2-4-8), the cutting motor (2-1-1) and the grinding motor (2-2-1) are electrically connected with the controller, a main switch (5-2) and a movable micro motor switch (5-3) are fixedly mounted on the mounting disc (5-1), and the main switch (5-2) and the movable micro motor switch (5-3) are electrically connected with the controller.

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