TH7697C3 - Enamel test specimen holder Controlled by microcontroller - Google Patents

Abstract

DC60 (03/10/55) The above ideas shed light on the problem of coating experiments. By plating or dipping the specimen Each time the subject has to dip his hand, it may be dangerous. With impregnators for certain allergens and to meet the standard of coating thickness control. And the coating area as specified by the experimenter will result in the accuracy of the glaze experiment and the confidence to repeat the experiment. Times of testing And another is Using a microcontroller-controlled coating water test specimen holder It will reduce the fatigue of the operator of many pieces. As well as Precise position Constant speed all the time And reduce accidents as well The above idea gives us a glimpse into the problem of coating experiments. By plating or dipping the specimen Each time the subject has to dip his hand, it may be dangerous. With impregnators for certain allergens and to meet the standard of coating thickness control. And the area of the coating that was determined by the experimenter will result in the accuracy of the glaze experiment and the confidence in the repeatability of the experiment. Times of testing And another is Microcontroller-controlled coating water test specimen Will reduce the fatigue of the subject Many jobs, Precise position The speed at all times And reduce accidents as well

Claims (2)

1.Coating test piece holder Controlled by a mictroller It consists of a structural unit (1) made of aluminum steel located in the shad axis. And the X-axis Operation of the gripper The coated test specimen uses a pneumatic system to assist in the suction. The fumigation system is from the air cylinder (8), through the air pipe (2), to the air pressure unit (9), to adjust the air pressure at 6 bar. Vacuum (10) to keep the wind at a lower pressure than the atmospheric pressure system. In the first stroke The specimen holder (4) captures the test piece (13) with the Y-axis motor (3) rotated to the left to be immersed in the coating. According to the set time And the second stroke, the Y-axis DC motor (3) rotates back to the right side at the same time, that the set and the test piece (4) drop the test piece (13) down. As a processor The center receives the input signal from the pushbutton switch (14), after which it processes the DC speed control signal and sends the output signal to the X-axis (11) DC Mercan block. Y (3) and DC Mercan Chad (12) to direct the 2.Coating test piece holder According to claim 1, which is additionally comprised of a three-axis structure, the X-axis, the Z-axis and the Y-axis, the Chad-axis consists of a Z-axis screw (5), with the end fixed to the DC. One more Mercan Shack (12), part X axis. In the deep center, the Z-axis screw (5) is attached to the X-axis screw (6), with the end thread of the X-axis Lidscoo (6) attached to the DC. The X-axis (11) and center motors are attached to the specimen holder (4) .When the Z-axis DCM (12) rotates left-right, the X-axis (6) DCM motor senses. The Morgan X (11) and the specimen holder (4), which are mounted in the same groove, move up and down. According to the direction of rotation of the Z axis DC (12), and if the X-axis decoder (11) rotates left-right, it results in the depth of the X-axis screw (6), which is attached to the test piece ( 4) Move left and right in the direction of rotation of the DC Mercury X (11) with the YDC Mercury Y axis (3) attached to the test piece (13) and immersed in water. 5 second coating and turning on the same position to release it, test (13) down in sequence