CN204366712U - Metallographical polishing machine multi-joint dynamic formula folder sampling device - Google Patents

Abstract

The utility model discloses a kind of metallographical polishing machine multi-joint dynamic formula folder sampling device, comprising: chuck body, the first extenal fixation contact mechanism, the first internal fixtion contact mechanism, the second extenal fixation contact mechanism, the second internal fixtion contact mechanism, outside link, end push rod and ball nut; Described first extenal fixation contact mechanism is connected with described chuck body side by described outside connecting rod, described second extenal fixation contact mechanism is connected with the opposite side of described chuck body, described first internal fixtion contact mechanism is connected with described second internal fixtion contact mechanism, push rod of the described end penetrates bottom described chuck body, one end is connected with described first extenal fixation contact mechanism, and the other end is connected with described second extenal fixation contact mechanism.A kind of metallographical polishing machine that the utility model provides multi-joint dynamic formula folder sampling device, just can be linked by outside link and to clamp four workpiece simultaneously, efficient general is strong, and can carry out metallic phase polishing work by stable clamping work pieces.

Description

Metallographical polishing machine multi-joint dynamic formula folder sampling device

Technical field

The utility model relates to detection folder sample equipment technical field, particularly a kind of metallographical polishing machine multi-joint dynamic formula folder sampling device.

Background technology

Metallographic refers to the internal structure of metal or alloy, i.e. physical state in alloy inside of the chemical composition of metal or alloy and various composition and chemical state, the concrete form of reflection metal metallographic, as martensite, austenite, ferrite, pearlite etc., directly have influence on the performance and used life of machine components, Metallographic Analysis is the important means controlling machine components inherent quality.At new material, new technology, in the research and development of new product, in the scientific research improving metallic article inherent quality, all be unable to do without Metallographic Techniques analysis.Metal lographic examination is that application metallography method checks the macroscopic view of metal material and the work of microscopic structure.

Main process comprises: sampling, edge sample, grind, polishing, tissue display etc.Wherein grinding and polishing is the most key.Comprise corase grind, fine grinding, corase grind be by cutting after sample polish on emery wheel, to do not do top layer inspection or measure sample polish after answer chamfering.Fine grinding is the polishing scratch produced when eliminating corase grind, and for the polishing of sample flour milling is ready, fine grinding is generally carried out on varigrained a series of sand paper from coarse to fine.The key of whole operation will manage to obtain maximum polishing speed, so that the damage layer produced when removing is polished as early as possible, the tissue that the unlikely impact of the deformation layer that simultaneously polishing will be made to produce finally is observed, namely can not produce false appearance.Therefore the polishing speed in operating process and the clamping of sample are stable becomes key factor, and armrest was held and carried out grinding and polishing and affect efficiency in the past, and less stable.

Utility model content

Technical problem to be solved in the utility model is to provide the metallographical polishing machine multi-joint dynamic formula folder sampling device that a kind of efficiency is high, stability is strong.

For solving the problems of the technologies described above, the utility model provides a kind of metallographical polishing machine multi-joint dynamic formula folder sampling device, comprising: chuck body, the first extenal fixation contact mechanism, the first internal fixtion contact mechanism, the second extenal fixation contact mechanism, the second internal fixtion contact mechanism, outside link, end push rod and ball nut;

Described chuck body top is provided with the first Workpiece storage point, second workpiece deposits point, the 3rd Workpiece storage point and the 4th Workpiece storage point, described first Workpiece storage point is for placing the first workpiece, described second workpiece is deposited a little for placing second workpiece, 3rd Workpiece storage point is for placing the 3rd workpiece, and described 4th Workpiece storage point is for placing the 4th workpiece;

Described chuck body cross section is spill, described first extenal fixation contact mechanism is connected with described chuck body side by described outside connecting rod, described second extenal fixation contact mechanism is connected with the opposite side of described chuck body, described first extenal fixation contact mechanism is used for clamping described first workpiece, and described second extenal fixation contact mechanism is used for clamping described 4th workpiece;

Described first internal fixtion contact mechanism is connected with described second internal fixtion contact mechanism, and be co-located on the hollow part at described chuck body concave structure center, described first internal fixtion contact mechanism is used for clamping described second workpiece, and described second internal fixtion contact mechanism is used for clamping described 3rd workpiece;

Push rod of the described end penetrates bottom described chuck body, one end is connected with described first extenal fixation contact mechanism, the other end is connected with described second extenal fixation contact mechanism, push rod of the described end is used for promoting described second extenal fixation contact mechanism when described first extenal fixation contact mechanism moves to right and rotates counterclockwise, thus clamps the 4th workpiece;

Described ball nut and described outside link are spirally connected, and move horizontally for driving described outside link;

Described outside link is used for when being moved to the left by described ball nut drive, by pulling described first extenal fixation contact mechanism, described first workpiece is clamped, by driving described first internal fixtion contact mechanism, described second workpiece is clamped, and then make described first internal fixtion contact mechanism drive described second internal fixtion contact mechanism to clamp described 3rd workpiece, simultaneously, described first extenal fixation contact mechanism promotes push rod of the described end and moves to right and promote described second extenal fixation contact mechanism and rotate counterclockwise, thus clamps the 4th workpiece.

Further, described metallographical polishing machine multi-joint dynamic formula folder sampling device, also comprises:

Spherical pad, described spherical pad is arranged between described Ball faced nut and described first extenal fixation contact mechanism.

Further, described metallographical polishing machine multi-joint dynamic formula folder sampling device, also comprises:

Middle connecting rod, described first internal fixtion contact mechanism is connected with described second internal fixtion contact mechanism by shown middle connecting rod.

Further, described metallographical polishing machine multi-joint dynamic formula folder sampling device, also comprises:

Trip bolt, described second internal fixtion contact mechanism and described second extenal fixation contact mechanism are fixedly connected with described chuck body respectively by described trip bolt.

Further, described metallographical polishing machine multi-joint dynamic formula folder sampling device, also comprises:

First spring, described first spring is arranged between described second extenal fixation contact mechanism and described chuck body, for compensator or trimmer pressure.

Further, described metallographical polishing machine multi-joint dynamic formula folder sampling device, also comprises:

Second spring, described second spring housing is connected on described outside link, and is arranged between described first extenal fixation contact mechanism and described chuck body, and between described chuck body and described first internal fixtion contact mechanism, for releasing the pressure.

Further, described metallographical polishing machine multi-joint dynamic formula folder sampling device, also comprises:

Clamp nut, described outside link is fixedly connected with described first internal fixtion contact mechanism by described clamp nut.

A kind of metallographical polishing machine that the utility model provides multi-joint dynamic formula folder sampling device, by arranging the first Workpiece storage point at chuck body top, second workpiece deposits point, the 3rd Workpiece storage point and the 4th Workpiece storage point, and correspondence is provided with the first extenal fixation contact mechanism, the first internal fixtion contact mechanism, the second internal fixtion contact mechanism and the second extenal fixation contact mechanism, just can be linked by outside link and four workpiece are clamped simultaneously, efficient general is strong, and can carry out metallic phase polishing work by stable clamping work pieces.

Accompanying drawing explanation

The structural representation of a kind of metallographical polishing machine multi-joint dynamic formula folder sampling device that Fig. 1 provides for the utility model embodiment.

Detailed description of the invention

See Fig. 1, a kind of metallographical polishing machine that the utility model embodiment provides multi-joint dynamic formula folder sampling device, comprising: chuck body 1, first extenal fixation contact mechanism 2, first internal fixtion contact mechanism 3, second extenal fixation contact mechanism 5, second internal fixtion contact mechanism 4, outside link 6, end push rod 7 and ball nut 8.

Wherein, chuck body 1 top is provided with the first Workpiece storage point, second workpiece deposits point, the 3rd Workpiece storage point and the 4th Workpiece storage point, first Workpiece storage point is for placing the first workpiece 9-1, second workpiece is deposited a little for placing second workpiece 9-2,3rd Workpiece storage point is for placing the 3rd workpiece 9-3, and the 4th Workpiece storage point is for placing the 4th workpiece 9-4.

Chuck body 1 cross section is spill, first extenal fixation contact mechanism 2 is connected with chuck body 1 side by outside connecting rod, second extenal fixation contact mechanism 5 is connected with the opposite side of chuck body 1, first extenal fixation contact mechanism 2 is for clamping the first workpiece 9-1, and the second extenal fixation contact mechanism 5 is for clamping the 4th workpiece 9-4;

First internal fixtion contact mechanism 3 is connected with the second internal fixtion contact mechanism 4, and be co-located on the hollow part at chuck body 1 concave structure center, bottom is fixedly connected with described chuck body 1, first internal fixtion contact mechanism 3 is for clamping second workpiece 9-2, and the second internal fixtion contact mechanism 4 is for clamping the 3rd workpiece 9-3.

End push rod 7 penetrates bottom chuck body 1, one end is connected with the first extenal fixation contact mechanism 2, the other end is connected with the second extenal fixation contact mechanism 5, end push rod 7 rotates counterclockwise for promoting the second extenal fixation contact mechanism 5 when the first extenal fixation contact mechanism 2 moves to right, thus clamps the 4th workpiece 9-4.

Ball nut 8 and outside link 6 are spirally connected, and move horizontally for driving outside link 6.Outside link 6 is for when being moved to the left by ball nut 8 drive, by pulling the first extenal fixation contact mechanism 2, first workpiece 9-1 is clamped, clamp by driving the first internal fixtion contact mechanism 3 couples of second workpiece 9-2, and then make the first internal fixtion contact mechanism 3 drive the second internal fixtion contact mechanism 4 to clamp the 3rd workpiece 9-3, simultaneously, first extenal fixation contact mechanism 2 promotes the end push rod 7 promotion second extenal fixation contact mechanism 5 that moves to right and rotates counterclockwise, thus clamps the 4th workpiece 9-4.

A kind of metallographical polishing machine that the utility model provides multi-joint dynamic formula folder sampling device, also comprise: spherical pad 10, middle connecting rod 11, first spring 12, second spring 13, trip bolt 14 and clamp nut 15, spherical pad 10 is arranged between Ball faced nut and the first extenal fixation contact mechanism 2.First internal fixtion contact mechanism 3 is connected with the second internal fixtion contact mechanism 4 by shown middle connecting rod 11.Second internal fixtion contact mechanism 4 and the second extenal fixation contact mechanism 5 are fixedly connected with chuck body 1 respectively by trip bolt 14.First spring 12 is arranged between the second extenal fixation contact mechanism 5 and chuck body 1, for compensator or trimmer pressure.Second spring 13 is socketed on outside link 6, and is arranged between the first extenal fixation contact mechanism 2 and chuck body 1, and between chuck body 1 and the first internal fixtion contact mechanism 3, for releasing the pressure.Outside link 6 is fixedly connected with the first internal fixtion contact mechanism 3 by clamp nut 15.

When the metallographical polishing machine using the utility model to provide multi-joint dynamic formula folder sampling device, by the first workpiece 9-1, second workpiece 9-2, 3rd workpiece 9-3 and the 4th workpiece 9-4 correspondence is placed on four set-points in chuck body 1, turn ball nut 8, outside link 6 is driven to be moved to the left, make ball nut 8 and spheric washer below promote the first extenal fixation contact mechanism 2 and compress the first workpiece 9-1, continue to turn ball nut 8, outside link 6 moves to left and pulls the first internal fixtion contact mechanism 3 to clamp second workpiece 9-2, first internal fixtion contact mechanism 3 drives the second internal fixtion contact mechanism 4 to clamp the 3rd workpiece 9-3 by middle connecting rod 11, simultaneously, first extenal fixation contact mechanism 2 promotes end push rod 7 and moves to right, the end push rod 7 promotion second extenal fixation contact mechanism 5 that moves to right rotates counterclockwise the 4th workpiece 9-4 is compressed.

A kind of metallographical polishing machine that the utility model provides multi-joint dynamic formula folder sampling device, by arranging the first Workpiece storage point at chuck body top, second workpiece deposits point, the 3rd Workpiece storage point and the 4th Workpiece storage point, and correspondence is provided with the first extenal fixation contact mechanism, the first internal fixtion contact mechanism, the second internal fixtion contact mechanism and the second extenal fixation contact mechanism, just can be linked by outside link and four workpiece are clamped simultaneously, efficient general is strong, and can carry out metallic phase polishing work by stable clamping work pieces.

It should be noted last that, above detailed description of the invention is only in order to illustrate the technical solution of the utility model and unrestricted, although be described in detail the utility model with reference to example, those of ordinary skill in the art is to be understood that, can modify to the technical solution of the utility model or equivalent replacement, and not departing from the spirit and scope of technical solutions of the utility model, it all should be encompassed in the middle of right of the present utility model.

Claims (7)

1. a metallographical polishing machine multi-joint dynamic formula folder sampling device, is characterized in that, comprising:

Chuck body, the first extenal fixation contact mechanism, the first internal fixtion contact mechanism, the second extenal fixation contact mechanism, the second internal fixtion contact mechanism, outside link, end push rod and ball nut;

Described chuck body top is provided with the first Workpiece storage point, second workpiece deposits point, the 3rd Workpiece storage point and the 4th Workpiece storage point, described first Workpiece storage point is for placing the first workpiece, described second workpiece is deposited a little for placing second workpiece, 3rd Workpiece storage point is for placing the 3rd workpiece, and described 4th Workpiece storage point is for placing the 4th workpiece;

Described chuck body cross section is spill, described first extenal fixation contact mechanism is connected with described chuck body side by described outside connecting rod, described second extenal fixation contact mechanism is connected with the opposite side of described chuck body, described first extenal fixation contact mechanism is used for clamping described first workpiece, and described second extenal fixation contact mechanism is used for clamping described 4th workpiece;

Described first internal fixtion contact mechanism is connected with described second internal fixtion contact mechanism, and be co-located on the hollow part at described chuck body concave structure center, described first internal fixtion contact mechanism is used for clamping described second workpiece, and described second internal fixtion contact mechanism is used for clamping described 3rd workpiece;

Push rod of the described end penetrates bottom described chuck body, one end is connected with described first extenal fixation contact mechanism, the other end is connected with described second extenal fixation contact mechanism, push rod of the described end is used for promoting described second extenal fixation contact mechanism when described first extenal fixation contact mechanism moves to right and rotates counterclockwise, thus clamps the 4th workpiece;

Described ball nut and described outside link are spirally connected, and move horizontally for driving described outside link;

Described outside link is used for when being moved to the left by described ball nut drive, by pulling described first extenal fixation contact mechanism, described first workpiece is clamped, by driving described first internal fixtion contact mechanism, described second workpiece is clamped, and then make described first internal fixtion contact mechanism drive described second internal fixtion contact mechanism to clamp described 3rd workpiece, simultaneously, described first extenal fixation contact mechanism promotes push rod of the described end and moves to right and promote described second extenal fixation contact mechanism and rotate counterclockwise, thus clamps the 4th workpiece.

2. metallographical polishing machine as claimed in claim 1 multi-joint dynamic formula folder sampling device, is characterized in that, also comprise:

Spherical pad, described spherical pad is arranged between described Ball faced nut and described first extenal fixation contact mechanism.

3. metallographical polishing machine as claimed in claim 1 multi-joint dynamic formula folder sampling device, is characterized in that, also comprise:

Middle connecting rod, described first internal fixtion contact mechanism is connected with described second internal fixtion contact mechanism by shown middle connecting rod.

4. metallographical polishing machine as claimed in claim 1 multi-joint dynamic formula folder sampling device, is characterized in that, also comprise:

Trip bolt, described second internal fixtion contact mechanism and described second extenal fixation contact mechanism are fixedly connected with described chuck body respectively by described trip bolt.

5. metallographical polishing machine as claimed in claim 1 multi-joint dynamic formula folder sampling device, is characterized in that, also comprise:

First spring, described first spring is arranged between described second extenal fixation contact mechanism and described chuck body, for compensator or trimmer pressure.

6. metallographical polishing machine as claimed in claim 1 multi-joint dynamic formula folder sampling device, is characterized in that, also comprise:

Second spring, described second spring housing is connected on described outside link, and is arranged between described first extenal fixation contact mechanism and described chuck body, and between described chuck body and described first internal fixtion contact mechanism, for releasing the pressure.

7. metallographical polishing machine as claimed in claim 1 multi-joint dynamic formula folder sampling device, is characterized in that, also comprise:

Clamp nut, described outside link is fixedly connected with described first internal fixtion contact mechanism by described clamp nut.