Fuse shaping and cutting structure

A fuse and cutting technology, applied in the direction of fuse manufacturing, etc., can solve the problems of low production efficiency and achieve the effect of improving production efficiency

Inactive Publication Date: 2016-03-23
MITAC PRECISION TECH(KUNSHAN) CORP
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AI-Extracted Technical Summary

Problems solved by technology

[0006] Therefore, the purpose of the present invention is to provide a fuse shaping and cutting structure to solve the problem of ...
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Method used

Compared with the prior art, the fuse shaping and cutting structure of the present invention arranges the fuse 10 to be processed by the vibration plate 100, and then drags the electric cylinder 500 to drive the movable part 400 and the concave module 410 from the output of the vibration plate 100. The fuse 10 to be processed is connect...
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Abstract

A fuse shaping and cutting structure comprises a vibrating disc one side of which is provided with a material discharge port and in which a to-be-machined fuse is placed, a support member disposed on one side of the material discharge port of the vibrating disc, a slide rail disposed on the support member, a movable member disposed on the slide rail in a sliding manner and provided with a plurality of concave modules with grooves matching the fuse after machining, a drag electric cylinder provided with a first push block connected with the movable member, a down press cylinder disposed above the movable member and provided with a second push block, and a convex module connected with the second push block; and the convex module comprises a positioning pin, a bending block and a cutting block, the positioning pin is disposed in the bending block in a movable manner, and the bending block is disposed in the cutting block in a movable manner. According to the fuse shaping and cutting structure, a lot of work personnel and auxiliary fixtures are not needed, the fuse is artificially placed, bent and cut, and production efficiency is improved.

Application Domain

Fuse device manufacture

Technology Topic

EngineeringMechanical engineering +1

Image

  • Fuse shaping and cutting structure
  • Fuse shaping and cutting structure
  • Fuse shaping and cutting structure

Examples

  • Experimental program(1)

Example Embodiment

[0027] See Figure 3 to Figure 6 Shown, where image 3 A schematic diagram from a perspective of a preferred embodiment of the fuse shaping and cutting structure of the present invention is shown, Figure 4 A schematic diagram from another angle of a preferred embodiment of the fuse shaping and cutting structure of the present invention is shown. Figure 5 Illustrated Figure 4 Partial enlarged schematic diagram of, and Image 6 A cross-sectional view of the convex module in a preferred embodiment of the fuse shaping and cutting structure of the present invention is shown.
[0028] In a preferred embodiment, the fuse shaping and cutting structure of the present invention is used for shaping and cutting the fuse, and the fuse shaping and cutting structure includes:
[0029] The vibration plate 100 has a discharge port 110 on one side, and the fuse 10 to be processed is placed in the vibration plate 100;
[0030] The support 200 is arranged on one side of the outlet 110 of the vibrating plate 100;
[0031] The sliding rail 300 is set on the support 200;
[0032] The movable part 400 is slidably arranged on the slide rail 300. The movable part 400 is provided with a plurality of concave modules 410, wherein the movable part 400 is provided with a plurality of notches, and each concave module 410 is correspondingly disposed on the In each of the notches, the concave module 410 is provided with a groove 411 that matches the processed fuse 20;
[0033] The electric drive cylinder 500 has a first push block 510 connected to the movable part 400;
[0034] The down-pressing cylinder 600 is arranged above the movable part 400, and the down-pressing cylinder 600 has a second pushing block 610;
[0035] The convex module 700 is connected to the second push block 610. The convex module 700 includes a positioning pin 710, a bending block 720, and a cutting block 730. The positioning pin 710 is movably arranged on the bending block 720 Correspondingly, the bending block 720 is provided with a movable space for the positioning pin 710 to move therein, the bending block 720 is movably provided in the cutting block 730, and the convex module 700 is provided with Two springs 740. The two springs 740 are arranged in the cutting block 730 and abut against the bending block 720. When the bending block 720 receives an external force, the spring 740 is compressed, causing the bending block 720 Retract into the cutting block 730.
[0036] Wherein, the fuse shaping and cutting structure further includes an ejection cylinder 800, the ejection cylinder 800 has an ejector rod (hidden in the figure), the ejector rod extends into the concave module 410 to contact the processed The fuse 20 is driven by the ejection cylinder 800 to eject the processed fuse 20 from the groove 411 of the concave module 410, so that the ejection cylinder 800 plays a role of ejection.
[0037] See Figure 7 As shown, it shows a schematic diagram of a first working state of a preferred embodiment of the fuse shaping and cutting structure of the present invention. In the fuse shaping and cutting structure, the fuses 10 to be processed are arranged through the vibration of the vibrating disk 100, and then the electric cylinder 500 is driven to drive the movable part 400 and one of the concave modules 410 from the discharge port 110 of the vibrating disk 100. When the fuse 10 is processed, when the female module 410 is connected to the fuse 10 to be processed, the electric drive cylinder 500 drives the movable part 400 and the female module 410 to move forward, and the female module 410 connected to the fuse 10 to be processed moves to Below the convex module 700.
[0038] See again Image 6 As shown, when the female module 410 receiving the fuse 10 to be processed moves below the male module 700, the cylinder 600 is pressed down to drive the male module 700 to move downwards. If the positioning pin 710 is in contact with the fuse 10 to be processed, the positioning pin 710 is The processed fuse 10 retracts under the action of the reaction force; and the bending block 720 bends the fuse 10 to be processed into a required shape. Under the action of the reaction force, the spring 740 is compressed, and the bending block 720 retracts to the cutting In the cutting block 730; then the cutting block 730 is pushed by the second push block 610 of the pressing cylinder 600 to move downward to cut off the excess part.
[0039] See Figure 8 As shown, it illustrates a schematic diagram of a second working state of a preferred embodiment of the fuse shaping and cutting structure of the present invention. After the bending and cutting operations are completed, pressing down the cylinder 600 drives the convex module 700 to move upwards, and drags the electric cylinder 500 to drive the movable part 400 and the concave module 410 to continue to move forward, so that the next one receives the concave of the fuse 10 to be processed. Module 410 to below the convex module 700, and so on.
[0040] When the external adsorption fixture is in place, the processed fuse 20 is adsorbed to the adsorption fixture under the auxiliary ejection action of the ejection cylinder 800 and transported to the next station.
[0041] Compared with the prior art, the fuse shaping and cutting structure of the present invention uses the vibrating plate 100 to arrange the fuses 10 to be processed, and then drag the electric cylinder 500 to drive the movable part 400 and the concave module 410 from the discharge port 110 of the vibrating plate 100 Connect the arranged fuses 10 to be processed, press down the cylinder 600 and the convex module 700 to move downwards to complete the bending and cutting actions, so there is no need for a large number of staff and auxiliary fixtures to manually place the processed fuses 10 , Bending and cutting, improve production efficiency.

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