JPH08295390A - Precision parts container - Google Patents

Abstract

PURPOSE: To facilitate containing and taking-out of precision parts, by making one or more nearly rectangular holes between the containing spaces and providing protrusions projected so as to position inward than the inner side faces of the container to prevent the positional deviation, at the four inside corners of the container. CONSTITUTION: A plurality of container groups in which five containers are connected in series on a straight line are connected like a belt. Protrusion 6 projected so as to position inward than the inside face of the container to prevent the positional deviation of the container are provided at the four inside corners of the container 2 and a positioning frame 7 is projected at the container bottom. When an electronic parts is put in the container 2, it is positioned by the positioning frame 7 at the container bottom. The inward front end of the positioning frame 7 is close to the electronic parts and the clearance between the protrusion 6 preventing the positional deviation and the electronic parts is small in the longitudinal and lateral directions and also the rotary direction. And hence, the transfer distance is little and even if lead wires of electronic parts collide with the inside face of the container unit, the lead wires are not deformed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a belt-shaped precision component storage container for storing precision components such as semiconductor integrated circuit devices.
More specifically, the present invention relates to a band-shaped precision component storage container having excellent holdability, breaking strength, and reel winding property.

[0002]

2. Description of the Related Art In a conventional band-shaped precision component storage container, the inner dimension of the storage container is formed with a margin larger than the outer dimension of the electronic component in order to facilitate the storage and removal of electronic components from the storage container. . For this reason, when the electronic component is stored, a gap is generated more than necessary between the electronic component and the inner surface of the storage container, and the electronic component moves within the storage container due to vibration during transportation. Therefore, when such a movement of the precision component occurs and the vibration or shock applied to the strip is large, the precision component also violently collides with the inner surface of the storage part, and the leads protruding from the precision component Will be deformed by this collision, and in a significant case, the lead will be broken. In particular, when the electronic component moves and rotates, a lateral force acts on the lead in the protruding direction, which causes the lead to be deformed very easily.

[0003]

DISCLOSURE OF THE INVENTION As a result of various studies to eliminate the above-mentioned drawbacks, the inventors of the present invention have found that in a storage container composed of a reel-wound strip-shaped article linearly connected to each other,
At least one substantially rectangular hole is provided between the storage containers, and sprocket holes for attachment / detachment to / from the transport mechanism are provided along at least one side edge of the strip at regular intervals in the longitudinal direction. Reached the storage container. or,
By installing protrusions for preventing the positional deviation of the stored items, which are provided so as to be located inward of the inner side surface of the storage container, at the four inner corners of the storage container, it becomes easy to store and take out precision parts. On the other hand, they have found that the lead can be prevented from being deformed or damaged, and have reached the present invention.

[0004]

SUMMARY OF THE INVENTION That is, the first aspect of the present invention is a reel-wound strip in which a plurality of storage containers are linearly connected, and at least one substantially rectangular shape is provided between the storage containers. Is provided, and sprocket holes for attaching to and detaching from the transport mechanism are provided along at least one side edge of the strip at regular intervals in the longitudinal direction. A second invention of the present invention comprises a reel-wound band-shaped article in which a plurality of storage containers are linearly connected, and at least one substantially rectangular hole is provided between the storage containers, and the inside of the storage container is provided. A sprocket having protrusions for preventing the positional deviation of the stored items, which are provided at four corners so as to be located inward of the inner surface of the storage container, and is attached to and detached from the transport mechanism along at least one side edge of the belt-shaped member. The container for precision parts is characterized in that holes are provided at regular intervals in the length direction.

According to a third aspect of the present invention, the reel-woundable belt-shaped article of the first aspect is obtained by injection-molding and connecting a container group consisting of a plurality of container, and the connecting portion. Is a precision component storage container having a shape in which the side surfaces of the storage container are superposed. According to a fourth aspect of the present invention, the reel-woundable belt-shaped article according to the second aspect is formed by connecting a container group including a plurality of container by injection molding, and
It is a precision component storage container having a shape in which a connecting portion is superposed on the container side surface of the storage container.

The present invention will be described in detail below. The precision component storage container of the present invention is preferably manufactured by injection molding, but can also be manufactured by vacuum forming, pressure forming or press forming a plastic sheet. Hereinafter, the precision component storage container by the injection molding method will be described, but the present invention is not limited thereto. FIG. 1 is a perspective view of a strip-shaped precision component storage container of the present invention. For example, in the case where the storage container group is composed of the five storage containers shown in FIG. 1 and the storage container groups are connected by injection molding to form a belt-like body, specifically, in the schematic view of FIG. As shown, it is done in a combined manner with overlapping shapes. That is, a plurality of storage containers 2 are linearly connected, and a plurality of storage container groups 3 are connected to each other to form a band-like connection at a connecting portion 4. As shown in FIG. 2, projections 6 are provided at the four inner corners of the storage container 2 so as to be located inward of the inner side surface of the storage container, and a positioning frame 7 is provided at the bottom of the container. At the same time, a central hole 5 is provided in the substantially central portion of the bottom of the container. A substantially rectangular hole is provided between the storage containers and along the side edge of the storage container 1, sprocket holes 8A to be attached to and detached from the transport mechanism are provided at regular intervals in the length direction.

Therefore, according to the storage container having the above configuration, when the electronic component is stored in the storage container as shown in FIGS. 4 and 5, the positioning frame 7 positions the electronic component 9 at the bottom of the storage container. The positioning frame 7
When viewed in cross section, the upper side has a shape equal to or shorter than the lower side. In order to reduce the movement amount of the electronic component in the positioning frame 7, it is desirable that the inner taper angle of the frame 7 cross section be substantially equal to the taper angle of the lower cross section of the electronic component body. Further, the inner end of the positioning frame 7 approaches the electronic component 9, and the gap between the position deviation preventing projection 6 and the electronic component 9 in the vertical and horizontal directions and the rotation direction is made small. The shape of the rib for preventing positional deviation is not necessarily limited to the illustrated shape. As a result, even if the electronic component 9 moves in the storage container, the amount of movement is extremely small, and even if the lead 10 of the electronic component collides with the inner side surface of the storage container, the lead is hardly deformed. Absent. In the container for storing precision parts of the present invention, a central hole 5 is provided at a substantially central portion of the bottom of the container in order to facilitate the loading and unloading of precision parts into and from the container for storage.

The resin used in the container for storing precision parts of the present invention is preferably a thermoplastic resin, specifically,
Examples thereof include olefin resins such as polypropylene and polyethylene, impact styrene resins, styrene-butadiene block copolymers, polyphenylene ether resins, polycarbonates, MMA resins, PET resins and the like. At least the surface of the container for storing precision parts of the present invention preferably has conductivity, and in molding the container, a composition in which a conductive filler is kneaded into a resin to impart conductivity is usually used. preferable. Further, the conductive filler for imparting conductivity is not limited to carbon black, but may be another filler such as carbon fiber. Further, not only the kneading type resin but also the surface coating type may be used. In the present invention, it is particularly preferable to use polypropylene containing carbon black. The thickness of the container for storing precision parts is not particularly limited, but is usually 0.15 mm or more, preferably 0.2 mm
That is all.

There is no particular limitation on the manufacturing apparatus used in the present invention. In the injection molding, the mold 11 is a molding part 12 (a part surrounded by a dotted line) for molding the storage container group as shown in FIG.
And a fixed portion 13 (a portion surrounded by a diagonal line) in which the molded storage container group is moved and fixed to the upper part of the mold. The molding part and the fixing part are preferably located linearly in the mold. A sprocket 8B for transportation and a motor for rotating the sprocket are attached to the center of the fixed portion. After injection molding the single container group in the mold, rotate the sprocket 8B and convey to the upper part of the mold, fix a part of the conveyed storage container group to the fixed part, and position it at the bottom end of the storage container group. After holding only the side surface part of the storage container closest to the molding part in the molding part, mold clamping is performed to mold, and the storage container group at the fixed part and the newly molded storage container group form the side surface part of the storage container. Connect through. By continuing this work, a container for storing precision parts, which is a reel-wound band-shaped object made of a storage container, is manufactured.

The precision component storage container of the present invention is a strip-wound strip-like material, and is preferably used as a carrier tape by putting a precision component in the storage container and then heat-sealing a cover tape or the like.

[0011]

EXAMPLES The present invention will be described in detail below based on examples. Example 1 A polypropylene resin composition containing carbon black was used, and a precision component storage container was prepared by linearly connecting a plurality of storage containers shown in FIG. 1 by injection molding using the mold shown in FIG. The precision parts storage container has a substantially rectangular center hole, a sprocket hole, a protrusion for preventing displacement of stored items, and a positioning frame between the storage containers, and the width is 24 m.
The distance between the storage containers was 20 mm. Table 1 shows the evaluation results
Shown in Comparative Example 1 In the same manner as in Example 1, as shown in FIG. 7, by injection molding, they were joined in a manner of joining in the middle of the storage container, and were positioned on the substantially rectangular hole, the protrusion for preventing the displacement of the stored contents, and the container bottom. A precision parts storage container without a frame was created. Table 1 shows the evaluation results.

(Evaluation method) (1) Holdability of electronic parts QFP type (10 x 10) with a body thickness of 1.5 mm in 5 storage containers
Each of these electronic parts is stored one by one, and after heat-sealing the top of the storage container with an antistatic type cover tape (ALS-AS type made by Denki Kagaku Kogyo Co., Ltd.), the storage container is 60
After rotating for 5 minutes at pm, the bent state of the lead of the electronic component in the container was visually evaluated. (2) Breaking strength A strip-shaped storage container consisting of 5 storage containers with connecting parts is stored in INSTRON MODEL 1122 at a distance between fulcrums of 90 mm, with one end as a fulcrum and the other end pulled at a speed of 200 mm / min for storage. The stress generated when the container broke was measured. (3) Reel winding property A strip-shaped precision component storage container containing electronic components was wound on a reel, and it was evaluated whether or not the storage container was broken.

[0013]

[Table 1]

[0014]

According to the present invention, the electronic component holdability,
A precision component storage container for storing precision components such as a semiconductor integrated circuit device having excellent breaking strength and reel winding property can be obtained.

[Brief description of drawings]

FIG. 1 is a perspective view of a precision component storage container of the present invention.

FIG. 2 is an enlarged view of the precision component storage container of the present invention.

FIG. 3 is a schematic view of a connecting portion of a XX ′ section of FIG.

FIG. 4 is a cross-sectional view when an electronic component is placed in the precision component storage container of the present invention.

FIG. 5 is a plan view of an electronic component placed in the precision component storage container of the present invention.

FIG. 6 is a schematic sectional view of a mold of the present invention.

7 is a schematic view of a connecting portion of Comparative Example 1. FIG.

[Explanation of Codes] 1 Precision Parts Storage Container 2 Storage Container 3 Storage Container Group 4 Connection Part 5 Central Hole 6 Position Displacement Prevention Protrusion 7 Positioning Frame 8A Sprocket Hole 8B Sprocket 9 Electronic Parts 10 Lead 11 Mold 12 Molding Section 13 fixing part 14 substantially rectangular hole 15 taper angle 16 resin inflow path

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[Procedure amendment]

[Submission date] April 24, 1995

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0013

[Correction method] Change

[Correction content]

[0013]

[Table 1]

Claims (4)

[Claims] 1. A reel-wound band-shaped material in which a plurality of storage containers are linearly connected, at least one substantially rectangular hole is provided between the storage containers, and at least one side edge of the band-shaped material. A precision parts storage container characterized in that sprocket holes for attachment / detachment to / from the transport mechanism are provided along the line along the length at regular intervals. 2. A reel-wound band-shaped material in which a plurality of storage containers are linearly connected, at least one substantially rectangular hole is provided between the storage containers, and the storage container has four inner corners. It has a protrusion for preventing displacement of stored items that is projected so as to be located inward of the inner side surface of the storage container, and has a sprocket hole that is attached to and detached from the transport mechanism along at least one side edge of the band-shaped member. A precision parts storage container, which is provided at regular intervals in the direction. 3. The reel-woundable strip according to claim 1, wherein a storage container group consisting of a plurality of storage containers is injection-molded and connected, and the connecting portion is on the container side surface of the storage container. Precision parts storage container that has a stacked shape. 4. The reel-wound strip-shaped article according to claim 2, wherein a storage container group consisting of a plurality of storage containers is connected by injection molding, and the connecting portion is on a container side surface of the storage container. Precision parts storage container that has a stacked shape.