JPH03240682A - Transfer jig for electronic component - Google Patents

Abstract

PURPOSE:To house electronic components while discriminating the order and positions of the electronic components one by one by installing a case, which covers the top face of a rotating disc, to the top face of which a plurality of raws of indentations for housing the components are formed radially at every fixed angle at regular intervals and at every fixed number, and to which opened holes opening the radial one-row indentation sections of the rotating disc so as to rotatably hold the rotating disc are formed. CONSTITUTION:A plurality of rows of indentations for housing components are formed radially to a top face at every fixed angle at regular intervals and at every fixed number in a rotating disc 1. Indentations 4 for revolution and positioning an angle are formed at the central section of the rotating disc 1, and a section corresponding to the radial one-row indentation section of the rotating disc 1 is shaped in a plane section having no indentation. An opened hole 2 opening the radial one-row indentation section of the rotating disc is formed to the top face of a case 3 holding the rotating disc 1. The external shape section of the case 3 has irregularities 5 for stacking the cases, and a side face thereof has a notch 6 for separation.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a conveying jig used for manufacturing electronic components.

BACKGROUND OF THE INVENTION In recent years, in the manufacture of electronic components, there has been a demand for high added value in the market, miniaturization through lightness, thinness, shortness, and miniaturization, as well as timely production of a wide variety of products in small quantities due to the use of timely and appropriate volume production, FA, and C1M. Traditional manufacturing methods for electronic components tend to pursue mass production costs.
It is difficult to respond to the above-mentioned high-mix, low-volume, timely production, and the quantity of 1
Quality is mostly controlled by loft management, rather than individual control of individual parts.

According to loft management, the amount of information such as quantity and quality is relatively small, and transportation between processes is carried out in bulk, which can be done at low cost.However, in order to satisfy the current market demands as mentioned above, There are some issues.

The conventional manufacturing method will be explained below from the aspects of transportation method and production quality control, using a film capacitor as an example.

FIG. 3a is a diagram schematically showing the process of manufacturing a laminated type film capacitor, FIG. 3 is a flow diagram, and FIG. The capacitor manufacturing process is roughly divided into the source process, assembly completion process, and shipping process, each with a detailed process A.
It is divided into 1-An, Bl-Bn, C, etc. In addition, in each of the above-mentioned steps, one element body is flowed from the original shape A, to B, which is divided into parts, and C, which is further subdivided, while changing the shape and quantity. At this time, with the current transportation method, the work in progress is grouped into 10 pieces by shape and sent to the next process.

Problems to be Solved by the Invention However, according to such a manufacturing method, the quantity and quality of products can only be managed in 10-piece time blocks, and individual management of each product is not possible. For example, in the product characteristic inspection process, it is difficult to distinguish between defects that occur continuously within a loft or defects that are dispersed and occur at a constant frequency. In addition, in the shipping process, it is necessary to feed more than the final shipping quantity into an alignment device such as a parts feeder for bulk transportation, and depending on the required quantity, different lots will be mixed and shipped, but the loft It is not possible to distinguish between 20 and 20 pieces, and there are cases where 20 pieces are mixed in unshipped items. This type of transportation method for manufacturing requires the necessary product information and management level for quality control of production processes that require recent advanced manufacturing technology, and for production control of high-mix, low-volume, timely production. I can't give it.

Means for Solving the Problem In order to solve this problem, the electronic component transport jig of the present invention has a plurality of component storage recesses arranged radially in a plurality of rows at regular intervals and at a constant angle on the top surface. a rotating disk; and a case that covers the upper surface of the rotating disk, is provided to rotatably hold the rotating disk, and is provided with openings that open a row of radial recesses in the rotating disk. It is characterized by:

Function: With this configuration, the order and position of electronic parts in a subdivided state can be distinguished one by one, and they can be processed, processed, and inspected in each process, and individual management of quality control and production control is possible. It is possible to improve the manufacturing process.

EXAMPLE An example of the present invention will be described below with reference to the drawings. FIG. 1 shows a jig for transporting electronic components according to the present invention.

In the figure, reference numeral 1 denotes a rotating disk, on the top surface of which a plurality of recesses for storing parts are provided radially in a plurality of rows at regular intervals and at regular angles. A recess 4 for rotation and angular positioning is provided in the center of the rotary disk 1, and a portion of the rotary disk 1 corresponding to a radial row of recesses is a flat portion without a recess. Reference numeral 3 denotes a case that holds the rotating disk 1, and the upper surface of this case has openings 2 that open a row of radial recesses of the rotating disk.

The outer shape of the case 3 has an unevenness 5 for stacking the cases, and a cutout 6 for separation is provided on the side surface.

Next, an example of how to use the transport jig in a manufacturing process will be explained with reference to FIG. In the figure, the area above the diagonal line is the transport jig, and the area below is the equipment. The rotating disk 1 of the transport jig has M rows of radial recesses, with the position without a component storage recess being O, and there are n rows of recesses in each angular column, with a total of MX
Can store n electronic components. After the n electronic components located in the recesses of each row are rotated to the opening 2 of the case, they are grabbed by the take-out and storage device on the equipment side, and each row is rotated around the rotation center to be placed in the equipment side. Jig 5
taken out on top. By performing an individual take-out operation and a reverse storage operation, electronic components can be stored one by one with their order and position distinguished.

In this way, the transport jig of this embodiment can easily transport and store parts without changing the order and position of the parts by simply positioning and rotating the transport device, and the lid function of the case allows for the transport and storage of parts in a conventional manner. Components can be stored more reliably and at a lower cost than with positioning jigs.

In addition, the material of the case and rotating disk is heat-resistant AI.
By using metals such as metals, it can be used in processes such as heat treatment of electronic parts, and by making the case and rotating disk of resin materials with solvent resistance, it can also be used in processes such as cleaning. .

Effects of the Invention As described above, the electronic component conveying jig of the present invention includes a rotating disk in which a plurality of recesses for storing components are provided radially in a plurality of rows on the upper surface at a constant interval and a constant number at a constant angle; Since a case is provided that covers the upper surface of the disk and has openings that open a row of radial recesses in the rotating disk so as to rotatably hold the rotating disk, electronic components can be placed one by one in the order shown. It is possible to store products in different locations, allowing for individual quality control and production control during processing, treatment, inspection processes, etc., and for quality control of production processes and production control of high-mix, low-volume, timely production. It is possible to provide information and management level, and the manufacturing process can be improved, which has a great practical effect.

[Brief explanation of drawings]

Fig. 1 is a perspective view showing a transport jig for electronic components according to an embodiment of the present invention, Fig. 2 is an explanatory diagram showing a method for storing and taking out electronic components using the transport jig, and Fig. 3 is a transport jig according to a conventional manufacturing method. It is an explanatory view showing a form. 1...Rotating disk, 2...Drilling hole, 3...
...Case, 4...Recess for rotational positioning, 5...Irregularities, 6...Notch.

Claims (5)

[Claims] (1) A rotating disk in which a plurality of recesses for storing components are arranged radially in a plurality of rows at regular intervals and at a constant angle on the upper surface, and a mechanism that covers the upper surface of the rotating disk and allows the rotating disk to rotate. 1. A case for transporting electronic components, comprising: a case that is provided to hold the rotating disk, and has openings that open a radial row of recesses in the rotating disk. (2) The rotary disc has a rotational and angular positioning depression in its center, and a portion corresponding to one row of radial depressions is a flat surface without a depression. Transportation jig for electronic parts. (3) The electronic component transport jig according to claim 1, wherein the case is provided with unevenness for stacking and notches for separation. (4) The electronic component transport jig according to claim 1, wherein the disk and the case are made of a heat-resistant material. (5) The electronic component transport jig according to claim 1, wherein the disk and the case are made of a solvent-resistant material.