CN117288780A - Portable terminal section analyzer - Google Patents

Abstract

The invention relates to the technical field of terminal section detection and discloses a portable terminal section analyzer which comprises a supporting component, a measuring device and a measuring device, wherein the supporting component comprises a protective shell, a sealing piece, an electron microscope, a display screen and a cutting piece, the sealing piece is arranged at the top of the protective shell, the electron microscope is positioned at the bottom of the sealing piece, the display screen is arranged in the sealing piece, and the cutting piece is positioned in the protective shell; and the driving assembly is arranged in the protective shell. The invention has the beneficial effects that: through setting up supporting component and drive assembly can cut the fixed position of terminal, and need not adjust the position of terminal when the cutting, improve the convenience of using, in the setting of sealing member can prevent the dust of cutting to get into electron microscope's the cavity that locates simultaneously, the design that cutting dish and polishing dish are fixed together for this device is small easily to carry.

Description

Portable terminal section analyzer

Technical Field

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

Background

The terminal section analyzer is a specially developed precision detection and analysis device aiming at the quality inspection of the wire harness industry, and consists of a terminal cutting device, a grinding device, a corrosion cleaning section image acquisition system, a wire harness terminal picture measurement and analysis system and other units, wherein the analyzer is divided into three types: portable, standard and working rooms, portable terminal section analyzers have been developed to save production time, improve work efficiency, and detect terminals at any time and place on site.

However, the existing portable terminal section analyzer has the disadvantages that the volume and the weight of some analyzers are still large, the carrying is inconvenient, the operation flow is complex, the operation can be performed only by professional staff, the use threshold is high, and the use by non-professional staff is inconvenient.

Disclosure of Invention

The present invention has been made in view of the above-described problems with the conventional portable terminal section analyzer.

Therefore, the problem to be solved by the invention is that the volume and the weight of some analyzers are still large when the conventional portable terminal section analyzer is used, the portable terminal section analyzer is inconvenient to carry, the operation flow is complex, the portable terminal section analyzer can be operated only by professional staff, the use threshold is high, and the portable terminal section analyzer is inconvenient for non-professional staff to use.

In order to solve the technical problems, the invention provides the following technical scheme: the portable terminal section analyzer comprises a supporting component, a measuring component and a measuring component, wherein the supporting component comprises a protective shell, a sealing piece, an electron microscope, a display screen and a cutting piece, the sealing piece is arranged at the top of the protective shell, the electron microscope is positioned at the bottom of the sealing piece, the display screen is arranged in the sealing piece, and the cutting piece is positioned in the protective shell; the method comprises the steps of,

the driving assembly is arranged in the protective shell and comprises a moving part, a fixing part, a clamping part, a limiting part and a terminal, wherein the moving part is arranged on the surface of the sealing part, the fixing part is arranged in the moving part, the clamping part is arranged in the fixing part, the limiting part is arranged in the protective shell, and the terminal is arranged in the clamping part.

As a preferable embodiment of the portable terminal section analyzer of the present invention, wherein: the sealing piece comprises a sealing shell, a flip cover and a separation plate, wherein the sealing shell is positioned at the top of the protective shell, the flip cover is rotationally connected in the sealing shell through a hinge, and the separation plate is fixed on the inner wall of the protective shell.

As a preferable embodiment of the portable terminal section analyzer of the present invention, wherein: the sealing piece further comprises a sliding rod, a first spring and a first sealing plate, wherein two ends of the sliding rod are fixed on the inner wall of the protective shell, the first spring is sleeved on the surface of the sliding rod, the first sealing plate slides on the surface of the sliding rod, and the first sealing plate is fixed at the end part of the first spring.

As a preferable embodiment of the portable terminal section analyzer of the present invention, wherein: the cutting piece comprises a driving motor, a cutting disc, a polishing disc and a pressing disc, wherein the driving motor is fixed on the inner bottom wall of the protective shell, the polishing disc is positioned at the output end of the driving motor, the cutting disc is fixed on one side of the polishing disc, the cutting disc and the polishing disc are both fixed on the output end of the driving motor through the pressing disc, and the pressing disc is fixed on the output end of the driving motor through bolts.

As a preferable embodiment of the portable terminal section analyzer of the present invention, wherein: the moving part comprises a sliding sleeve, an extrusion rod, a supporting sleeve, a second spring and a second sealing plate, wherein the sliding sleeve slides on the surface of the sliding rod, the extrusion rod is fixed on one side of the sliding sleeve, the supporting sleeve is fixed on the other side of the sliding sleeve, the end part of the second spring is fixed on one side of the sliding sleeve, the second sealing plate slides on the surface of the sliding rod, and the second sealing plate is fixed on the end part of the second spring.

As a preferable embodiment of the portable terminal section analyzer of the present invention, wherein: the fixing piece comprises a supporting frame, a driving sleeve, an inserting block, a third spring, a connecting rod and a knob, wherein the supporting frame slides in the sliding sleeve, the driving sleeve is fixed on one side of the supporting frame, the inserting block slides in the supporting frame, two ends of the third spring are respectively fixed on one side of the inserting block and the inner wall of the supporting frame, the connecting rod is rotationally connected in the inserting block, and the knob is fixed on the end part of the connecting rod.

As a preferable embodiment of the portable terminal section analyzer of the present invention, wherein: the fixing piece further comprises an air bag, an extrusion piece, a thread bush, an inserting rod, a guide pipe, a fixing frame, a micro cylinder, a telescopic rod and a clamping rod, wherein the end part of the air bag is fixed on one side of the supporting frame, the extrusion piece is fixed on the other end of the air bag, the thread bush is rotationally connected in the driving sleeve through threads, the inserting rod is fixed on one side of the knob, two ends of the guide pipe are respectively fixed on the surface of the air bag and the end part of the micro cylinder, the fixing frame is fixed on one side of the supporting frame, the micro cylinder is fixed in the fixing frame, the telescopic rod slides in the micro cylinder, the clamping rod slides in the fixing frame, and the end part of the telescopic rod is fixed on the inner wall of the clamping rod.

As a preferable embodiment of the portable terminal section analyzer of the present invention, wherein: the clamping piece comprises a clamping frame, a fourth spring and a fixed block, wherein the clamping frame slides in the supporting frame, two ends of the fourth spring are respectively fixed on the inner wall of the clamping frame and one side of the fixed block, the fixed block slides in the clamping frame, an inclined plane is formed in the end part of the fixed block, and a placing groove is formed in the clamping frame.

As a preferable embodiment of the portable terminal section analyzer of the present invention, wherein: the limiting piece comprises a supporting seat, a limiting pin, a supporting disc, a fifth spring and a pull rod, wherein the supporting seat is fixed on the inner bottom wall of the protective shell, the limiting pin slides in the supporting seat, the supporting disc is fixed on one side of the limiting pin, two ends of the fifth spring are respectively fixed on one side of the supporting disc and the inner wall of the supporting seat, and the end part of the pull rod is fixed on one side of the supporting disc.

As a preferable embodiment of the portable terminal section analyzer of the present invention, wherein: the first flat groove, the first chute, the second flat groove, the second chute and the third flat groove are formed in one side of the protective shell, and the driving sleeve slides in the first flat groove, the first chute, the second flat groove, the second chute and the third flat groove.

The invention has the beneficial effects that: through setting up supporting component and drive assembly can cut the fixed position of terminal, and need not adjust the position of terminal when the cutting, improve the convenience of using, in the setting of sealing member can prevent the dust of cutting to get into electron microscope's the cavity that locates simultaneously, the design that cutting dish and polishing dish are fixed together for this device is small easily to carry.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a structural view of a portable terminal section analyzer.

Fig. 2 is an enlarged view of a partial structure at a in fig. 1 of the portable terminal section analyzer.

Fig. 3 is a cross-sectional view of the portable terminal section analyzer.

Fig. 4 is a cross-sectional view of a support base of the portable terminal section analyzer.

Fig. 5 is a cross-sectional view of a support sleeve of the portable terminal section analyzer.

Fig. 6 is a connection structure diagram of a driving motor, a cutting disc and a polishing disc of the portable terminal section analyzer.

Fig. 7 is a cross-sectional view of a drive sleeve of the portable terminal section analyzer.

Fig. 8 is a cross-sectional view of a holder of the portable terminal section analyzer.

Fig. 9 is a diagram showing a structure of connection between a duct and a micro cylinder of the portable terminal section analyzer.

Fig. 10 is a cross-sectional view of a drive sleeve of the portable terminal section analyzer.

Fig. 11 is a sectional view of a telescopic rod of the portable terminal section analyzer.

Fig. 12 is a cross-sectional view of an insert block of the portable terminal section analyzer.

In the figure: a support assembly 100; a drive assembly 200; a terminal 205; a seal, 102; an electron microscope 103; a cutting disc 105b; polishing disc, 105c; a protective shell, 101; a display screen 104; a cutting member 105; a moving member 201; a fixing member 202; a clamping member 203; a stopper 204; a seal housing, 102a; flip cover, 102b; a separator 102c; a slide bar, 102d; a first spring, 102e; a first sealing plate, 102f; a drive motor 105a; platen, 105d; a sliding sleeve 201a; a squeeze rod 201b; a support sleeve 201c; a second spring 201d; a second sealing plate 201e; a support frame, 202a; a drive sleeve, 202b; a plug, 202c; a third spring, 202d; a connecting rod 202e; a knob, 202f; an air bag, 202g; extruding the sheet for 202h; a threaded sleeve, 202i; a plunger, 202j; a catheter, 202k; a fixing frame, 202l; a micro cylinder, 202m; a telescopic rod, 202n; clamping rod, 202o; a clamping frame, 203a; fourth springs 203b; a fixed block 203c; a placement groove U; a support base 204a; a stopper pin 204b; a support plate, 204c; a fifth spring, 204d; a tie rod, 204e; a first flat groove, V; a first chute, W; a second flat groove, X; a second chute, Y; third flat groove, Z.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present invention is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 12, in a first embodiment of the present invention, a portable terminal section analyzer is provided, which includes a support assembly 100 and a driving assembly 200, by matching the support assembly and the driving assembly, a fixed position of a terminal 205 can be cut, without adjusting the position of the terminal 205 during cutting, so that convenience in use is improved, and meanwhile, the sealing member 102 can prevent dust generated during cutting from entering a cavity where the electron microscope 103 is located, and the cutting disc 105b and the polishing disc 105c are fixed together, so that the portable terminal section analyzer is small in size and easy to carry.

Specifically, the support assembly 100 includes a protective housing 101, a sealing member 102, an electron microscope 103, a display screen 104, and a cutting member 105, wherein the sealing member 102 is disposed at the top of the protective housing 101, the electron microscope 103 is disposed at the bottom of the sealing member 102, the display screen 104 is disposed in the sealing member 102, and the cutting member 105 is disposed in the protective housing 101.

The protecting shell 101 is used for supporting and fixing the device, the sealing piece 102 is used for sealing the protecting shell 101, meanwhile, the volume in the protecting shell 101 can be divided into a cutting cavity where the cutting piece 105 is located and an observation cavity where the electron microscope 103 is located, dust and debris in the cutting cavity are prevented from running into the observation cavity, the electron microscope 103 is used for observing the cross section of a cut terminal, the display screen 104 is used for displaying the observation result of the electron microscope 103, and the cutting piece 105 is used for cutting and polishing the terminal.

The driving assembly 200 is arranged in the protective shell 101 and comprises a moving member 201, a fixing member 202, a clamping member 203, a limiting member 204 and a terminal 205, wherein the moving member 201 is arranged on the surface of the sealing member 102, the fixing member 202 is arranged in the moving member 201, the clamping member 203 is arranged in the fixing member 202, the limiting member 204 is arranged in the protective shell 101, and the terminal 205 is arranged in the clamping member 203.

The moving part 201 is used for driving the fixing part 202 to move, so that the terminal 205 is cut and polished, the fixing part 202 is used for clamping and limiting the clamping part 203 and the terminal 205, the clamping part 203 is used for primarily clamping and fixing the terminal 205, and the limiting part 204 is used for limiting the moving part 201, so that the electron microscope 103 can stably observe the cut terminal 205.

Specifically, the sealing member 102 includes a sealing shell 102a, a flip cover 102b, and a separation plate 102c, the sealing shell 102a is located at the top of the protecting shell 101, the flip cover 102b is rotatably connected to the sealing shell 102a through a hinge, and the separation plate 102c is fixed to the inner wall of the protecting shell 101.

The seal housing 102a is fixed on the top of the protection housing 101 through a bolt, a handle is arranged on one side of the flip 102b, the flip 102b can be conveniently opened, the clamping piece 203 can be taken out from the fixing piece 202 after the flip 102b is opened, the volume in the protection housing 101 can be divided into a cutting chamber and an observation chamber by the isolation plate 102c, and dust and debris in the cutting chamber are prevented from running into the observation chamber.

Specifically, the sealing member 102 further includes a sliding rod 102d, a first spring 102e, and a first sealing plate 102f, wherein two ends of the sliding rod 102d are fixed on the inner wall of the protective housing 101, the first spring 102e is sleeved on the surface of the sliding rod 102d, the first sealing plate 102f slides on the surface of the sliding rod 102d, and the first sealing plate 102f is fixed at the end of the first spring 102 e.

The number of the sliding rods 102d is two, the sliding rods 102d are used for supporting the first sealing plate 102f and the moving piece 201, the number of the first springs 102e is two, the first springs 102e are respectively arranged on the surfaces of the two sliding rods 102d, the first springs 102e are in a stretching state, the first sealing plate 102f is arranged on one side of the isolation plate 102c and used for sealing the isolation plate 102c, and dust and debris are prevented from entering the observation cavity.

Specifically, the cutting member 105 includes a driving motor 105a, a cutting disc 105b, a polishing disc 105c and a pressing disc 105d, wherein the driving motor 105a is fixed on the inner bottom wall of the protective housing 101, the polishing disc 105c is located at the output end of the driving motor 105a, the cutting disc 105b is fixed on one side of the polishing disc 105c, the cutting disc 105b and the polishing disc 105c are both fixed at the output end of the driving motor 105a through the pressing disc 105d, and the pressing disc 105d is fixed at the output end of the driving motor 105a through bolts.

Starting the driving motor 105a can enable the driving motor 105a to drive the cutting disc 105b and the polishing disc 105c to rotate, so that the cutting disc 105b can cut the terminal 205, the polishing disc 105c can polish the section of the terminal 205, and the pressing disc 105d is used for fixing the cutting disc 105b and the polishing disc 105 c.

Example 2

Referring to fig. 1, 3, 5, 7 and 9-12, a second embodiment of the present invention is based on the previous embodiment.

Specifically, the moving member 201 includes a sliding sleeve 201a, a pressing rod 201b, a supporting sleeve 201c, a second spring 201d, and a second sealing plate 201e, the sliding sleeve 201a slides on the surface of the sliding rod 102d, the pressing rod 201b is fixed on one side of the sliding sleeve 201a, the supporting sleeve 201c is fixed on the other side of the sliding sleeve 201a, the end of the second spring 201d is fixed on one side of the sliding sleeve 201a, the second sealing plate 201e slides on the surface of the sliding rod 102d, and the second sealing plate 201e is fixed on the end of the second spring 201 d.

The sliding sleeve 201a slides on the surfaces of the two sliding rods 102d and is used for supporting and limiting the fixing piece 202, the extrusion rod 201b is used for pushing the first sealing plate 102f, the sliding sleeve 201a can smoothly slide into the observation cavity, the supporting sleeve 201c is used for supporting the second spring 201d and the second sealing plate 201e, the second sealing plate 201e and the sliding sleeve 201a have a certain distance, and therefore the second sealing plate 201e cannot extrude the fixing piece 202, and the second spring 201d is in a stretching state.

Specifically, the fixing member 202 includes a support 202a, a driving sleeve 202b, an insert block 202c, a third spring 202d, a connecting rod 202e and a knob 202f, the support 202a slides in the sliding sleeve 201a, the driving sleeve 202b is fixed on one side of the support 202a, the insert block 202c slides in the support 202a, two ends of the third spring 202d are respectively fixed on one side of the insert block 202c and on the inner wall of the support 202a, the connecting rod 202e is rotatably connected in the insert block 202c, and the knob 202f is fixed on the end of the connecting rod 202 e.

The driving sleeve 202b slides on the inner wall of the protecting shell 101, the supporting frame 202a is supported by the driving sleeve 202b, so that the third spring 202d stably stays in the sliding sleeve 201a, the insert block 202c is used for limiting the clamping piece 203, the connecting rod 202e can be driven to pull the insert block 202c by pulling the knob 202f, the insert block 202c further stretches the third spring 202d, and the end part of the insert block 202c is far away from the clamping piece 203, so that the limiting of the clamping piece 203 is relieved.

Specifically, the fixing member 202 further includes an air bag 202g, an extrusion piece 202h, a threaded sleeve 202i, an inserting rod 202j, a conduit 202k, a fixing frame 202l, a micro cylinder 202m, a telescopic rod 202n and a clamping rod 202o, wherein the end of the air bag 202g is fixed on one side of the supporting frame 202a, the extrusion piece 202h is fixed on the other end of the air bag 202g, the threaded sleeve 202i is connected in the driving sleeve 202b through threads in a rotating manner, the inserting rod 202j is fixed on one side of the knob 202f, the two ends of the conduit 202k are respectively fixed on the surface of the air bag 202g and the end of the micro cylinder 202m, the fixing frame 202l is fixed on one side of the supporting frame 202a, the micro cylinder 202m is fixed in the fixing frame 202l, the telescopic rod 202n slides in the micro cylinder 202m, the clamping rod 202o slides in the fixing frame 202l, and the end of the telescopic rod 202n is fixed on the inner wall of the clamping rod 202 o.

The number of the inserting rods 202j is multiple, the inserting rods 202j slide in the threaded sleeves 202i, the inserting rods 202j can be driven to move through rotating the knob 202f, the inserting rods 202j jointly drive the threaded sleeves 202i to rotate, the threaded sleeves 202i can extrude the extruding pieces 202h through threads formed in the inner wall of the driving sleeve 202b, the extruding pieces 202h extrude the air bags 202g, the air bags 202g are internally provided with the dividing pieces, the air bags 202g are divided into two chambers, the two chambers are equal in size and are respectively connected with the end parts of the two guide pipes 202k, after the air bags 202g are extruded, air flows into the micro cylinders 202m through the guide pipes 202k, air pressure in the micro cylinders 202m is increased, the telescopic rods 202n are pushed, the telescopic rods 202n drive the clamping rods 202o to move towards the terminals 205, and the two clamping rods 202o clamp and fix the terminals 205.

Example 3

Referring to fig. 3, 4, 8, 9 and 12, a third embodiment of the present invention is based on the first two embodiments.

Specifically, the clamping piece 203 includes a clamping frame 203a, a fourth spring 203b and a fixing block 203c, the clamping frame 203a slides in the supporting frame 202a, two ends of the fourth spring 203b are respectively fixed on the inner wall of the clamping frame 203a and one side of the fixing block 203c, the fixing block 203c slides in the clamping frame 203a, an inclined plane is formed at the end of the fixing block 203c, and a placing groove U is formed in the clamping frame 203 a.

The clamping frame 203a is used for supporting the fixed blocks 203c, the number of the fixed blocks 203c is two, the fixed blocks 203c are used for primarily clamping the terminals 205, one end of each terminal 205 with a wire is inserted into the corresponding placing groove U, the wire is pulled, the metal part of each terminal 205 can squeeze the inclined planes of the two fixed blocks 203c, when the metal part of each terminal 205 is clamped at the notch position of the corresponding placing groove U, the terminals 205 are clamped and fixed by the two fixed blocks 203c, the clamping frame 203a can be placed into the supporting frame 202a at the moment, in the process, the clamping frame 203a squeezes the inclined planes of the tops of the inserting blocks 202c, so that the inserting blocks 202c can be smoothly placed into the supporting frame 202a, and when the clamping frame 203a is located at the inner bottom wall of the supporting frame 202a, the inserting blocks 202c can be driven to move to the tops of the clamping frame 203a under the action of the reset tension of the third springs 202d, so that the clamping frame 203a is limited, and the clamping frame 203a is stably stopped in the supporting frame 202 a.

Specifically, the limiting member 204 includes a supporting seat 204a, a limiting pin 204b, a supporting disc 204c, a fifth spring 204d, and a pull rod 204e, where the supporting seat 204a is fixed to the inner bottom wall of the protective housing 101, the limiting pin 204b slides in the supporting seat 204a, the supporting disc 204c is fixed to one side of the limiting pin 204b, two ends of the fifth spring 204d are respectively fixed to one side of the supporting disc 204c and the inner wall of the supporting seat 204a, and an end of the pull rod 204e is fixed to one side of the supporting disc 204 c.

The supporting seat 204a is used for supporting the limiting pin 204b, the fifth spring 204d is in a compressed state, when the sliding sleeve 201a extrudes the first spring 102e and moves in the observation cavity, the sliding sleeve 201a can extrude the limiting pin 204b, so that the limiting pin 204b moves towards the supporting seat 204a, along with the fact that the sliding sleeve 201a is far away from the limiting pin 204b, the limiting pin 204b can be located at one side of the sliding sleeve 201a, under the action of reset elastic force of the fifth spring 204d, the limiting pin 204b can move towards the outer side of the supporting seat 204a, so that the sliding sleeve 201a is limited, at the moment, external force is stopped being applied to the sliding sleeve 201a, the sliding sleeve 201a can stay in place under the limiting action of the limiting pin 204b, at the moment, the terminal 205 is located under the electron microscope 103, the electron microscope 103 can observe the section of the terminal 205 conveniently, and the limiting pin 204b can be driven to move towards the supporting seat 204a by pulling the pull rod 204e, so that the limiting of the sliding sleeve 201a can be relieved.

Specifically, a first flat groove V, a first chute W, a second flat groove X, a second chute Y, and a third flat groove Z are formed on one side of the protective housing 101, and the driving sleeve 202b slides in the first flat groove V, the first chute W, the second flat groove X, the second chute Y, and the third flat groove Z.

By moving the knob 202f at the end of the driving sleeve 202b, the driving sleeve 202b can be driven to slide in the first flat groove V, when the driving sleeve 202b slides in the first flat groove V, the terminal 205 can be driven to move towards the cutting disc 105b, so that the cutting disc 105b cuts the terminal 205, when the driving sleeve 202b moves in the first chute W, the terminal 205 can be driven to move downwards, so that the terminal 205 moves below the polishing disc 105c, when the driving sleeve 202b moves in the second flat groove X and the second chute Y, the terminal 205 can be made to slowly approach the polishing disc 105c, so that the terminal 205 can be polished, and when the driving sleeve 202b moves in the third flat groove Z, the terminal 205 can be driven to move into an observation cavity where the electron microscope 103 is located, so that the electron microscope 103 observes the terminal 205.

When the clamp is used, the flip 102b is opened first, the connecting rod 202e can be driven by the pulling knob 202f to pull the insert 202c, so that the insert 202c can further stretch the third spring 202d, the end part of the insert 202c is far away from the clamping frame 203a, limiting of the clamping frame 203a is removed, the clamping frame 203a is taken out of the supporting frame 202a, one end of the terminal 205 with a wire is inserted into the placing groove U, the metal part of the terminal 205 can squeeze the inclined planes of the two fixing blocks 203c through pulling the wire, when the metal part of the terminal 205 is clamped at the notch position of the placing groove U, the terminal 205 is clamped and fixed by the two fixing blocks 203c, at the moment, the clamping frame 203a can be placed into the supporting frame 202a, in the process, the clamping frame 203a can squeeze the inclined plane at the top of the insert 202c, at the moment, the clamping frame 203a can be placed into the supporting frame 202a smoothly, when the clamping frame 203a is located in the supporting frame 202a, the reset action of the third spring 202d can drive the insert 202c to move to the clamping frame 203a, and the top of the clamping frame 203a can be kept stable.

At this time, the knob 202f can be rotated to drive the inserting rod 202j to move, so that the inserting rods 202j jointly drive the threaded sleeve 202i to rotate, the threaded sleeve 202i can squeeze the squeezing piece 202h through threads formed in the inner wall of the driving sleeve 202b, so that the squeezing piece 202h squeezes the air bag 202g, after the air bag 202g is squeezed, air flows into the micro cylinder 202m through the guide pipe 202k, the air pressure in the micro cylinder 202m is increased, the telescopic rod 202n is pushed, the telescopic rod 202n drives the clamping rod 202o to move towards the terminal 205, and the two clamping rods 202o clamp and fix the terminal 205.

And when the driving sleeve 202b moves in the second flat groove X and the second inclined groove Y, the section of the terminal 205 can be slowly approaching the polishing disc 105c, so that the section of the terminal 205 is polished, and when the driving sleeve 202b moves in the third flat groove Z, the terminal 205 can be driven to move into the observation cavity where the electron microscope 103 is positioned, so that the electron microscope 103 observes the terminal 205.

It should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered in the scope of the claims of the present invention.

Claims (10)

1. A portable terminal cross-section analyzer, characterized by: comprising the steps of (a) a step of,

the support assembly (100) comprises a protective shell (101), a sealing element (102), an electron microscope (103), a display screen (104) and a cutting element (105), wherein the sealing element (102) is arranged at the top of the protective shell (101), the electron microscope (103) is positioned at the bottom of the sealing element (102), the display screen (104) is arranged in the sealing element (102), and the cutting element (105) is positioned in the protective shell (101); the method comprises the steps of,

the driving assembly (200) is arranged in the protective shell (101), and comprises a moving part (201), a fixing part (202), a clamping part (203), a limiting part (204) and a terminal (205), wherein the moving part (201) is arranged on the surface of the sealing part (102), the fixing part (202) is arranged in the moving part (201), the clamping part (203) is arranged in the fixing part (202), the limiting part (204) is arranged in the protective shell (101), and the terminal (205) is arranged in the clamping part (203).

2. The portable terminal section analyzer of claim 1, wherein: the sealing piece (102) comprises a sealing shell (102 a), a flip cover (102 b) and a separation plate (102 c), wherein the sealing shell (102 a) is arranged at the top of the protective shell (101), the flip cover (102 b) is rotatably connected into the sealing shell (102 a) through a hinge, and the separation plate (102 c) is fixed on the inner wall of the protective shell (101).

3. The portable terminal section analyzer of claim 2, wherein: the sealing piece (102) further comprises a sliding rod (102 d), a first spring (102 e) and a first sealing plate (102 f), wherein two ends of the sliding rod (102 d) are fixed on the inner wall of the protective shell (101), the first spring (102 e) is sleeved on the surface of the sliding rod (102 d), the first sealing plate (102 f) slides on the surface of the sliding rod (102 d), and the first sealing plate (102 f) is fixed at the end part of the first spring (102 e).

4. The portable terminal section analyzer of claim 3, wherein: the cutting member (105) comprises a driving motor (105 a), a cutting disc (105 b), a polishing disc (105 c) and a pressure disc (105 d), wherein the driving motor (105 a) is fixed on the inner bottom wall of the protective shell (101), the polishing disc (105 c) is positioned at the output end of the driving motor (105 a), the cutting disc (105 b) is fixed on one side of the polishing disc (105 c), the cutting disc (105 b) and the polishing disc (105 c) are both fixed on the output end of the driving motor (105 a) through the pressure disc (105 d), and the pressure disc (105 d) is fixed on the output end of the driving motor (105 a) through bolts.

5. The portable terminal section analyzer of claim 4, wherein: the moving part (201) comprises a sliding sleeve (201 a), an extrusion rod (201 b), a supporting sleeve (201 c), a second spring (201 d) and a second sealing plate (201 e), wherein the sliding sleeve (201 a) slides on the surface of the sliding rod (102 d), the extrusion rod (201 b) is fixed on one side of the sliding sleeve (201 a), the supporting sleeve (201 c) is fixed on the other side of the sliding sleeve (201 a), the end part of the second spring (201 d) is fixed on one side of the sliding sleeve (201 a), the second sealing plate (201 e) slides on the surface of the sliding rod (102 d), and the second sealing plate (201 e) is fixed on the end part of the second spring (201 d).

6. The portable terminal section analyzer of claim 5, wherein: the fixing piece (202) comprises a supporting frame (202 a), a driving sleeve (202 b), an inserting block (202 c), a third spring (202 d), a connecting rod (202 e) and a knob (202 f), wherein the supporting frame (202 a) slides in the sliding sleeve (201 a), the driving sleeve (202 b) is fixed on one side of the supporting frame (202 a), the inserting block (202 c) slides in the supporting frame (202 a), two ends of the third spring (202 d) are respectively fixed on one side of the inserting block (202 c) and the inner wall of the supporting frame (202 a), the connecting rod (202 e) is rotationally connected in the inserting block (202 c), and the knob (202 f) is fixed on the end part of the connecting rod (202 e).

7. The portable terminal section analyzer of claim 6, wherein: the fixing piece (202) further comprises an air bag (202 g), an extrusion piece (202 h), a thread bush (202 i), an inserting rod (202 j), a guide pipe (202 k), a fixing frame (202 l), a micro cylinder (202 m), a telescopic rod (202 n) and a clamping rod (202 o), wherein the end part of the air bag (202 g) is fixed on one side of the supporting frame (202 a), the extrusion piece (202 h) is fixed on the other end of the air bag (202 g), the thread bush (202 i) is connected in the driving sleeve (202 b) in a threaded rotating manner, the inserting rod (202 j) is fixed on one side of the knob (202 f), two ends of the guide pipe (202 k) are respectively fixed on the surface of the air bag (202 g) and the end part of the micro cylinder (202 m), the fixing frame (202 l) is fixed on one side of the supporting frame (202 a), the telescopic rod (202 n) is slidably arranged in the micro cylinder (202 m), and the end part of the telescopic rod (202 o) is fixed in the fixing frame (202 l).

8. The portable terminal section analyzer of claim 7, wherein: clamping piece (203) is including holder (203 a), fourth spring (203 b) and fixed block (203 c), holder (203 a) slide in support frame (202 a), fourth spring (203 b) both ends are fixed in respectively holder (203 a) inner wall with fixed block (203 c) one side, fixed block (203 c) slide in holder (203 a), inclined plane has been seted up to fixed block (203 c) tip, standing groove (U) has been seted up in holder (203 a).

9. The portable terminal section analyzer of claim 8, wherein: the limiting piece (204) comprises a supporting seat (204 a), a limiting pin (204 b), a supporting disc (204 c), a fifth spring (204 d) and a pull rod (204 e), wherein the supporting seat (204 a) is fixed on the inner bottom wall of the protective shell (101), the limiting pin (204 b) slides in the supporting seat (204 a), the supporting disc (204 c) is fixed on one side of the limiting pin (204 b), two ends of the fifth spring (204 d) are respectively fixed on one side of the supporting disc (204 c) and the inner wall of the supporting seat (204 a), and the end part of the pull rod (204 e) is fixed on one side of the supporting disc (204 c).

10. The portable terminal section analyzer according to claim 8 or 9, characterized in that: first flat groove (V), first chute (W), second flat groove (X), second chute (Y) and third flat groove (Z) have been seted up to protective housing (101) one side, drive sleeve (202 b) slide in first flat groove (V) first chute (W) second flat groove (X), second chute (Y) and in third flat groove (Z).