CN211374276U - Diamond wire clamping device used in diamond dust inspection process - Google Patents

Abstract

The utility model discloses a buddha's warrior attendant line clamping device for among carborundum inspection process, including anchor clamps main part, titanium strip connection piece, the anchor clamps main part is the square open structure that the upper end is equipped with the edge, passes through stainless steel fix with anchor clamps main part upper surface length unanimous titanium strip connection piece in the anchor clamps main part, and stainless steel screw still is used for the both ends of fixed buddha's warrior attendant line simultaneously, all is equipped with two above PP screws on the bottom surface left and right sides both ends in the anchor clamps main part. The device can simulate the production state of a production line and inspect the diamond dust, thereby improving the inspection efficiency, avoiding manual interference and effectively reducing the loss caused by the investment of bad diamond dust into the production line.

Description

Diamond wire clamping device used in diamond dust inspection process

Technical Field

The utility model belongs to the technical field of electroplating technology major ingredient carborundum before putting into production material inspection, concretely relates to carborundum wire clamping device for among carborundum inspection process.

Background

Before the emery is put into a production line for production, because the appearance condition of the emery can only be detected through conventional inspection, the actual use condition after the emery is put into production cannot be inspected, and the simulation production line is required to simulate and inspect the condition after the emery is electroplated, but the cost is higher and the efficiency is low when the emery is directly put into the production line.

SUMMERY OF THE UTILITY MODEL

In order to overcome not enough among the prior art, the utility model provides a buddha's warrior attendant line clamping device for among the carborundum inspection process, concrete technical scheme is a buddha's warrior attendant line clamping device for among the carborundum inspection process, including the anchor clamps main part, the titanium strip connection piece, the anchor clamps main part is the square open structure that the edge is equipped with to the upper end, passes through stainless steel screw with the unanimous titanium strip connection piece of anchor clamps main part upper surface length and fixes in the anchor clamps main part, and stainless steel screw still is used for the both ends of fixed buddha's warrior attendant line simultaneously, all is equipped with three PP screw on the bottom surface left and right sides both ends in. The titanium strip connecting sheet 1 avoids pollution of metal ion impurities to the plating solution; stainless steel screw 2, as the anchor clamps at fixed buddha's warrior attendant line both ends, guarantees the stability of buddha's warrior attendant line clamping to guarantee the electric conduction stability among the electroplating process: the clamp main body 3 ensures the relative positions of all parts and the equal distance among screw holes; the PP screw 6 is used for fixing the position of the diamond wire on the clamp, and the PP material ensures the conductive stability and uniformity of the diamond wire in the electroplating process; the diamond wire 5 in electroplating is wound according to certain method steps, the distance of each steel wire is ensured to be uniform, the middle part is taken during sampling, electron microscope detection is carried out, a current high area, a current low area and a current middle area are respectively arranged from top to bottom, the distribution condition of the diamond wire electroplated by the micro powder is respectively observed, and the quality of the micro powder can be qualitatively evaluated.

The clamp main body is formed by welding PP plates with the thickness of 10 mm;

PP screws are uniformly distributed at the left end and the right end of the inner bottom surface of the clamp main body.

The concrete method for detecting the carborundum by utilizing the device comprises the following steps:

a. taking a diamond wire bus with a proper length, fixing one end of a diamond wire by using a stainless steel screw 2 on one side in figure 2, winding the diamond wire on a diamond wire clamping tool as shown in figure 3, and fixing the other end of the diamond wire on a stainless steel screw on the other side in figure 2 to ensure that the diamond wires are in a straight line and are parallel and equal in distance;

b. placing the diamond wire clamp with the clamped bus into a 5L measuring cup filled with hot water and deoiling powder, and standing for 1 min;

c. placing the diamond wire clamp with the clamped bus into a 5L measuring cup filled with acid water with the pH of 0.2, and standing for 0.5 min;

d. washing the diamond wire clamping tool with the clamped bus by pure water;

e. adding 4L of electroplating solution, 3g of carborundum and 1ml of dispersing agent into another 5L measuring cup, and fully stirring;

f. connecting the nickel block with the anode of a rectifier, placing the nickel block in the diamond wire line clamping tool cleaned by pure water in the step d, and placing the diamond wire line clamping tool into a 5L measuring cup 3 filled with plating solution in the step e;

g. connecting the diamond wire clamp with the cathode of a rectifier and placing the diamond wire clamp on a 5L measuring cup 3 filled with plating solution;

h. connecting the nickel block in the measuring cup with an anode lead of a rectifier;

i. switching on a power supply of a rectifier, setting the power supply to be in a voltage stabilizing mode, setting the voltage to be 3V, slowly stirring the plating solution by using a stirring rod in the electroplating process, ensuring that the plating solution is in a flowing state, keeping sand in the plating solution in a suspended state, and setting the electroplating time to be 5 min;

j. and taking out the diamond wire clamping tool after the electroplating is finished, and cutting off the sample wire and sending the sample wire to a detection room for detection.

The device can simulate the production state of a production line and inspect the diamond dust, thereby improving the inspection efficiency, avoiding manual interference and effectively reducing the loss caused by the investment of bad diamond dust into the production line.

Drawings

FIG. 1 is a top view of the device of the present invention;

FIG. 2 is a cross-sectional view of the inventive apparatus;

fig. 3 is a bottom view of the device of the present invention;

fig. 4 is a schematic half-section view of the device of the present invention.

The fixture comprises a titanium strip connecting sheet 1, a stainless steel screw 2, a fixture main body 3, a PP screw 4 and a diamond wire 5.

Detailed Description

Example 1

The utility model provides a buddha's warrior attendant line clamping device for among carborundum inspection process, includes anchor clamps main part 3, titanium strip connection piece 1, and anchor clamps main part 3 is the square open structure that the upper end was equipped with the edge, passes through stainless steel screw 2 with the unanimous titanium strip connection piece of anchor clamps main part upper surface length and fixes in the anchor clamps main part, and stainless steel screw still is used for the both ends of fixed buddha's warrior attendant line simultaneously, all is equipped with two above PP screws 4 on the both ends about the bottom surface in the anchor clamps main part. The titanium strip connecting sheet 1 avoids pollution of metal ion impurities to the plating solution; stainless steel screw 2, as the anchor clamps at fixed buddha's warrior attendant line both ends, guarantees the stability of buddha's warrior attendant line clamping to guarantee the electric conduction stability among the electroplating process: the clamp main body 3 ensures the relative positions of all parts and the equal distance among screw holes; the position of the diamond wire on the clamp is fixed by the PP screw 4, and the conductive stability and uniformity of the diamond wire in the electroplating process are ensured by the PP material. The clamp main body 3 is formed by welding PP plates with the thickness of 10mm, and PP screws are uniformly distributed at the left end and the right end of the inner bottom surface of the clamp main body.

Example 2

The method for detecting carborundum by using the device in the embodiment 1 comprises the following specific steps:

a. taking a diamond wire bus with a proper length, fixing one end of a diamond wire by using a stainless steel screw 2 on one side in figure 2, winding the diamond wire on a diamond wire clamping tool as shown in figure 3, and fixing the other end of the diamond wire on a stainless steel screw on the other side in figure 2 to ensure that the diamond wires are in a straight line and are parallel and equal in distance;

b. placing the diamond wire clamp with the clamped bus into a 5L measuring cup filled with hot water and deoiling powder, and standing for 1 min;

c. placing the diamond wire clamp with the clamped bus into a 5L measuring cup filled with acid water with the pH of 0.2, and standing for 0.5 min;

d. washing the diamond wire clamping tool with the clamped bus by pure water;

e. adding 4L of electroplating solution, 3g of carborundum and 1ml of dispersing agent into another 5L measuring cup, and fully stirring;

f. connecting the nickel block with the anode of a rectifier, placing the nickel block in the diamond wire line clamping tool cleaned by pure water in the step d, and placing the diamond wire line clamping tool into a 5L measuring cup 3 filled with plating solution in the step e;

g. connecting the diamond wire clamp with the cathode of a rectifier and placing the diamond wire clamp on a 5L measuring cup 3 filled with plating solution;

h. connecting the nickel block in the measuring cup with an anode lead of a rectifier;

i. switching on a power supply of a rectifier, setting the power supply to be in a voltage stabilizing mode, setting the voltage to be 3V, slowly stirring the plating solution by using a stirring rod in the electroplating process, ensuring that the plating solution is in a flowing state, keeping sand in the plating solution in a suspended state, and setting the electroplating time to be 5 min;

j. and taking out the diamond wire clamping tool after the electroplating is finished, and cutting off the sample wire and sending the sample wire to a detection room for detection.

Claims (3)

1. The utility model provides a buddha's warrior attendant line clamping device for among carborundum inspection process, its characterized in that includes anchor clamps main part, titanium strip connection piece, and the anchor clamps main part is the square open structure that the upper end is equipped with the edge, passes through stainless steel screw with the unanimous titanium strip connection piece of anchor clamps main part upper surface length and fixes in the anchor clamps main part, and stainless steel screw still is used for the both ends of fixed buddha's warrior attendant line simultaneously, all is equipped with two above PP screws on the both ends about the bottom surface in the anchor clamps main part.

2. A diamond wire clamping device for use in emery inspection process according to claim 1, characterized in that said clamp body is welded from PP plates with a thickness of 10 mm.

3. A diamond wire clamping device used in diamond dust inspection process according to claim 1, wherein PP screws are uniformly distributed on the left and right ends of the inner bottom surface of the clamp body.

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