JP3214042U - Capacitor tab terminal storage container - Google Patents

Abstract

A storage container for a capacitor tab terminal that is lightweight and has a high load resistance is provided. A capacitor tab terminal storage container (10) includes an opening (14) serving as a capacitor tab terminal storage port, a rectangular bottom wall portion (15) formed on an inclined surface facing the opening (14), and a bottom wall. A storage space for storing a capacitor tab terminal surrounded by four side wall portions 16, 17, 18, 19 continuous with the portion 15, and among the four side wall portions 16, 17, 18, 19. A storage pack 11 having at least two side walls 16 and 17 facing each other in the length direction of the capacitor tab terminal and beads 20 and 21 extending from the opening 14 toward the bottom wall 15; And a lid pack 12 having a convex portion 26 that can be mounted. [Selection] Figure 1

Description

  The present invention relates to a container for a capacitor tab terminal.

  FIG. 6 is a perspective view showing an example of the capacitor tab terminal 1 to be stored in the storage container for the capacitor tab terminal. As shown in FIG. 6, the capacitor tab terminal 1 includes a round bar portion 4 in which one end portion of the lead wire 2 is thicker than the diameter of the lead wire 2, and a flat portion 3 on the tip side from the round bar portion 4. It is configured. Conventionally, such a capacitor tab terminal 1 is generally cleaned after being stored in a cleaning container, and after cleaning, it is transferred to a transport container and transported to the next process or elsewhere. is there. However, when transporting, the capacitor tab terminal 1 had to be transferred from the cleaning container to the transport container.

  Patent Document 1 and Patent Document 2 disclose a capacitor tab terminal storage container in which a cleaning storage container and a transport storage container can be used in common. In the bottom portion of the capacitor tab terminal storage container described in Patent Document 1 and Patent Document 2, there is a slit that discharges the cleaning liquid used during cleaning and blows dry air to dry the capacitor tab terminal after cleaning. Is formed.

JP 2002-184657 A JP 2003-68591 A

  A predetermined amount of the capacitor tab terminal may be stored in a storage container and transported to the next process or to a remote place. At this time, in consideration of transportation efficiency, it is desirable to load and transport a large number of storage containers storing capacitor tab terminals in a transport box or the like. When a large number of storage containers are stacked and transported, the load of a plurality of upper storage containers is applied to the lower storage container. However, since a slit is provided in the bottom of the storage container described in Patent Document 1 and Patent Document 2, the load resistance is not sufficient, and the storage container is crushed or deformed, so that the capacitor tab terminal There is a problem that the storage container is damaged and the storage container cannot be used repeatedly. In order to increase the load resistance sufficiently, the thickness of the storage container must be increased, and the transport box carrying a large number of storage containers must also have a large load resistance, making it difficult to transport. There is a problem of becoming.

  The present invention has been made in view of such problems, and an object of the present invention is to provide a storage container for a capacitor tab terminal that is lightweight and has a high load resistance.

  [1] A capacitor tab terminal storage container according to the present invention is a capacitor tab terminal storage container having a round bar portion thicker than the diameter of the lead wire on one end side of the lead wire. It is configured to be surrounded by an opening serving as a storage port for the tab terminal, a quadrangular bottom wall portion formed by an inclined surface facing the opening, and four side wall portions continuous to the bottom wall portion. From the opening to the storage space for storing the capacitor tab terminal 1 and the two side wall portions opposed to each other in the length direction of the capacitor tab terminal to be stored among the four side wall portions. A storage pack having a plurality of beads extending toward the bottom wall portion, and a lid pack having a convex portion that can be inserted into the opening.

  According to the storage container for a capacitor tab terminal of the present invention, a plurality of beads are formed on opposing side wall portions of the storage pack, and the side wall portions of the storage pack are reinforced by the beads. A container for a high capacitor tab terminal can be realized. Therefore, since it does not deform with respect to the load when stacking the storage containers of many capacitor tab terminals, it is possible to stack and transport many storage containers, and repeatedly use the storage containers of the capacitor tab terminals. It becomes possible to do.

  [2] In the capacitor tab terminal storage container of the present invention, it is preferable that the bead is formed in a planar region of the two side walls facing each other in the length direction of the capacitor tab terminal. .

  As a manufacturing method of the storage pack, it is possible to use injection molding, vacuum molding, compressed air molding, or the like. Such a molding method uses a molding die. However, if the bead is formed in the plane region of the side wall, the configuration of the molding die can be simplified, and a storage container having excellent load resistance can be easily manufactured. Moreover, although mentioned later in detail in embodiment, there exists an effect that a bead does not become a hindrance when stacking a some storage container.

  [3] In the storage container for a capacitor tab terminal according to the present invention, the storage pack is provided with an outer frame portion that projects from the outer periphery of the upper surface toward the bottom wall portion side, and protrudes over the entire outer periphery. It is preferable that an outer frame portion that is detachably fitted to the outer frame portion of the storage pack is provided on the outer periphery of the storage pack.

  Since both the storage pack and the lid pack have outer frame portions on the outer peripheral portion, these outer frame portions serve as reinforcing portions and have a structure that is not easily deformed by an external force such as twisting or bending.

  [4] Preferably, the lid pack has an uneven surface having a uniform step and a non-uniform planar shape on the entire surface opposite to the storage pack.

  The uneven surface formed on the surface of the lid pack is generally called “texture”, and if it has the same thickness, it can be made more difficult to bend than a lid pack having a constant thickness (smooth surface). The shape of the concavo-convex surface can be arbitrarily set. Further, the appearance is superior to a flat surface.

  [5] When the lid pack is attached to the storage pack in a state where the capacitor tab terminal is stored, a predetermined amount of the capacitor tab terminal is stored in the storage space of the convex portion of the cover pack. Preferably, the capacitor tab terminal has a flat surface parallel to a surface formed by connecting the upper surfaces of the uppermost layers of the capacitor tab terminals.

  In this way, when a predetermined amount of the capacitor tab terminal is stored in the storage container, the capacitor tab terminal can be held substantially evenly by the lid pack. It is possible to prevent the capacitor tab terminals from being entangled in the storage pack. Here, the uppermost surface means a plane formed by generally connecting the uppermost portions of the lead portion, round bar portion, and flat portion of the capacitor tab terminal when a predetermined amount of the capacitor tab terminal is accommodated. .

  [6] In the storage container for a capacitor tab terminal according to the present invention, the lid pack has a recess capable of accommodating the bottom wall portion following the shape of the projection, and the storage to which the lid pack is attached. When stacking a plurality of packs, if the bottom wall portion of the upper storage pack is stacked with the inclination direction of the bottom wall portion of the upper storage pack being reversed with respect to the inclination direction of the bottom wall portion of the lower storage pack, the lower storage It is preferable that it is comprised so that a part and the said upper storage part may become parallel.

  In this way, when stacking the storage containers, the bottom wall portion of the lower layer and the lid pack of the upper layer are parallel. In other words, the lower storage portion and the upper storage portion are parallel to each other. Therefore, the capacitor tab terminal storage containers can be directly stacked in a stable posture, and a large number of capacitor tab terminal storage containers can be loaded and transported in a transport box or transport pad.

  [7] In the storage container for a capacitor tab terminal according to the present invention, the storage pack is preferably a vacuum molded product or a compressed air molded product.

  Vacuum forming and pressure forming are suitable for forming a sheet material into a container having a desired shape, and the thickness of the formed product is constant, and it is possible to suppress variations in strength depending on the location. Since the storage pack is reinforced with beads and an outer frame portion, the load capacity can be obtained even if the bottom side wall or the side wall portion is thinned, and the weight can be reduced.

It is an exploded assembly figure showing storage container 10 of a tab terminal for capacitors concerning an embodiment. It is a figure which shows a part of storage pack 11, and the storage part 13. FIG. It is sectional drawing of the lid pack 12 cut | disconnected by the BB cutting line of FIG. It is sectional drawing which shows typically the state which mounted | wore the storage pack 11 which accommodated the predetermined amount of capacitor | condenser tab terminals 1 with the cover pack 12. FIG. It is explanatory drawing which shows typically the example of a form which stacks two storage containers. It is a perspective view which shows one example of the tab terminal 1 for capacitors used as the accommodation object of the storage container of the tab terminal for capacitors which concerns on embodiment.

  Hereinafter, one aspect of the container 10 for a capacitor tab terminal of the present invention will be described with reference to the drawings shown below. Each diagram described below is a schematic diagram that is appropriately reduced and enlarged for easy understanding of the description.

  FIG. 1 is an exploded view showing a storage container 10 for capacitor tab terminals according to an embodiment. In the following description, the horizontal direction shown in FIG. 1 is the horizontal direction (longitudinal direction), the direction orthogonal to the horizontal direction is the width direction, and the upper direction is the height direction (or upper direction). In the following description, the storage container 10 for the capacitor tab terminal may be simply described as the storage container 10. The storage container 10 includes a storage pack 11 that stores the capacitor tab terminal 1 and a lid pack 12 that is a lid member of the storage pack 11. The storage pack 11 and the lid pack 12 are formed of a transparent or translucent synthetic resin so that the capacitor tab terminal 1 stored in polypropylene (PP), polystyrene (PS), polyethylene phthalate (PET) or the like can be seen. It is preferable. The storage pack 11 is formed by vacuum forming or pressure forming, and the lid pack 12 can be formed by any forming method such as injection molding, vacuum forming or pressure forming, and may be colored.

  The storage pack 11 illustrated in FIG. 1 has 10 storage portions 13 for storing the capacitor tab terminals 1 arranged in the lateral direction and 1 in the width direction. However, it is possible to arrange more than ten storage units 13 in the horizontal direction or fewer than ten storage units 13 in the lateral direction. Two or more can also be arranged in the width direction, and the number of capacitor tab terminals 1 can be set so as to be easy to store or take out or to be easily transported.

  The storage portion 13 includes an opening 14 serving as a storage opening for the capacitor tab terminal 1, a bottom wall portion 15 having a substantially rectangular plane shape formed on an inclined surface facing the opening 14, and a bottom wall portion 15 on one side. 4 side wall portions 16, 17, 18, and 19 extending from the side toward the opening 14. Of the four side wall portions, the two side wall portions 16 and 17 facing each other in the length direction of the accommodated capacitor tab terminal 1 extend from the upper end of the opening portion 14 toward the bottom wall portion 15. Three beads 20 and 21 are formed. Three beads 20 and 21 are arranged in parallel in the horizontal direction, and the planar shape viewed from the opening 14 side is substantially corrugated. The number of beads 20 and 21 is not limited to three, and may be two or four or more. A bead may be formed on one or both of the side walls 18 and 19 in addition to the side walls 16 and 17. An outer frame portion 33 is formed over the entire outer periphery of the storage pack 11. The configuration of the storage portion 13 including the outer frame portion 33 will be described in more detail with reference to FIG.

  As shown in FIG. 1, the lid pack 12 has a rectangular shape that covers the entire opening 14 side of the storage pack 11, and can be inserted into the opening 14 from the upper surface 25 toward the storage container 10. A convex portion 26 protrudes (see FIG. 3 for details), and has a concave portion 27 that can accommodate the bottom wall portion 15 of the storage portion 13 following the shape of the convex portion 26. Although illustration is omitted, the lid pack 12 has a uniform height (a step between the low portion and the high portion) and a non-uniform planar shape on the entire surface including the upper surface 25 and the concave portion 27 opposite to the storage pack 11. An uneven surface is formed. This uneven surface can be formed by surface copying using a mold called graining. By forming such an uneven surface, the section modulus becomes larger than a smooth flat plate structure of the same thickness. It is difficult to twist and bend, and the appearance can be improved. The convex part 26 (concave part 27) is arrange | positioned corresponding to the number and arrangement | positioning position of the accommodating part 13. As shown in FIG. The configuration of the lid pack 12 will be described in more detail later with reference to FIG.

  FIG. 2 is a view showing a part of the storage pack 11 and the storage part 13, FIG. 2 (a) is a plan view showing a part of the storage pack 11, and FIG. 2 (b) is FIG. FIG. 2C is a left side view of FIG. 2A, and FIG. 2D is a right side view of FIG. 2A. FIG. As shown in FIGS. 2A and 2B, the storage portion 13 includes a bottom wall portion 15 (see FIG. 2B) having a substantially rectangular plane shape formed on an inclined surface facing the opening portion 14, and a bottom portion on one side. There is a storage space 28 for storing the capacitor tab terminal 1 surrounded by four side wall portions 16, 17, 18, 19 extending continuously from the wall portion 15 toward the opening 14. As shown in FIG. 2B, the inner bottom surface 29 of the accommodation space 28 is formed as an inclined surface, and this inclined surface is directed from the lead wire 2 side of the capacitor tab terminal 1 to be accommodated toward the round bar portion 4 side. The slope is deeper.

  The four side wall portions 16, 17, 18, and 19 constituting the storage portion 13 are inclined inward from the opening portion 14 toward the inner bottom surface 29. As a result, a large number of empty storage containers 10 can be stacked using the storage space 28. Beads 20 and 21 are formed on the two side wall portions 16 and 17 of the four side wall portions 16, 17, 18 and 19 that face each other in the length direction of the accommodated capacitor tab terminal 1. Yes. The side wall portion 16 is formed with three beads 20 extending from the upper end (upper surface 32) of the opening portion 14 toward the bottom wall portion 15, and the side wall portion 17 is formed from the upper end (upper surface 32) of the opening portion 14 to the bottom. Three beads 21 extending toward the wall portion 15 are formed. The beads 20 and 21 are set to have a number and a shape that can withstand a load from above applied to the storage container 10.

  The connecting portion corners of the bottom wall portion 15 and the side wall portions 16, 17, 18, 19 are connected by a circular arc (so-called R: R). The bead 20 is formed in the flat region 30 of the side wall portion 16, and the bead 21 is formed in the flat region 31 of the side wall portion 17. When the storage container 10 is formed by vacuum forming or pressure forming, the mold configuration is simplified by forming the beads 20 and 21 in the planar regions 30 and 31 that do not reach the rounded portion. Further, as shown in FIG. 5, when stacking the storage containers 10, the beads 20 and 21 do not interfere with the stacking by hitting the edge of the concave portion 27 of the lid pack 12. In the storage space 28, the distance between the side wall part 16 and the side wall part 17 is longer than the length direction of the capacitor tab terminal 1 (a range not arranged in series), and the distance between the side wall part 18 and the side wall part 19 is The length is shorter than the length of the capacitor tab terminal (for example, about half).

  As shown in FIGS. 2A and 2B, the storage pack 11 has a substantially U-shaped outer frame portion 33 whose cross-sectional shape opens from the upper surface 32 toward the bottom wall portion 15 over the entire outer periphery of the storage pack 11. It has. The outer frame portion 33 serves as a reinforcing portion of the storage pack 11 and a fitting portion with the lid pack 12. The outer frame portion 33 has a function of preventing the upper and lower storage containers 10 from coming into close contact when the empty storage containers 10 are stacked.

  3 is a cross-sectional view of the lid pack 12 taken along the line BB in FIG. The lid pack 12 includes a substantially U-shaped outer frame portion 34 whose cross-sectional shape opens downward from the upper surface 25 over the entire outer periphery. The outer frame portion 34 is set to have a shape and a size that are detachably fitted to the outer frame portion 33 of the storage pack 11 when the lid pack 12 is mounted on the opening 14 side of the storage pack 11. The lid pack 12 has a convex portion 26 that can be fitted into the opening 14 of the storage pack 11 and a concave portion 27 that follows the shape of the convex portion 26. When the lid pack 12 is formed by vacuum forming or pressure forming, since the thickness is constant, the concave portion 27 is similar to the convex portion 26, and the bottom wall portion 15 of the storage portion 13 is stored in the concave portion 27. It is possible.

  FIG. 4 is a cross-sectional view schematically showing a state in which the lid pack 12 is attached to the storage pack 11 in which a predetermined amount of the capacitor tab terminal 1 is stored. The capacitor tab terminals 1 are accommodated in the accommodating space 28 so as to overlap each other. The lid pack 12 can be mounted by fitting the outer frame portion 34 to the outer frame portion 33 of the storage pack 11, and can be easily mounted on or removed from the storage pack 11. When the lid pack 12 is mounted on the storage pack 11, the convex portion 26 of the lid pack 12 enters the storage space 28 of the storage portion 13 and does not press the capacitor tab terminal 1, and the capacitor tab terminal 1. Hold to the extent that does not entangle. The capacitor tab terminal 1 is stored along the inner bottom surface 29 of the storage portion 13 with the round bar portion 4 side facing downward. When a predetermined amount of the capacitor tab terminal 1 is stored in the storage pack 11, the surface connecting the top surfaces of the uppermost layers of the capacitor tab terminal 1 becomes a substantially flat surface, and the flat surface of the convex portion 26 of the lid pack 12. Are generally parallel. The storage containers 10 storing the capacitor tab terminals 1 can be stacked, and this will be described with reference to FIG.

  FIG. 5 is an explanatory view schematically showing an example in which two storage containers 10 are stacked. The storage container 10 in which the capacitor tab terminal 1 is stored may be loaded on a transport box or transport pad and transported to a remote place away. In this case, a large number of storage containers 10 are stacked and stacked. Sometimes. FIG. 5 shows an example in which two storage containers 10 are stacked. As shown in FIG. 5, when the storage pack 11 storing a predetermined amount of the capacitor tab terminal 1 is directly stacked, the bottom wall portion 15 of the upper storage portion 13 is disposed in the concave portion 27 of the lower-side lid pack 12. And stack. At this time, it is preferable to stack the bottom wall portion 15 of the upper storage pack 10 so that the inclination direction of the bottom wall portion 15 of the lower storage pack 10 is reversed. When stacked in this manner, the bottom wall portion 15 of the lower storage pack 11 and the upper surface 32 (side wall portion 15) of the upper lid pack 12 are substantially parallel, and the work table 35 (or the bottom portion of the transport box). ) And the like can be maintained in a stable posture.

  For example, when a large number of storage containers 10 are loaded on a transport box or transport pad, etc., two rows of storage containers 10 are packed in a row in the width direction, and a thin flat partition plate or cushioning material is placed. Furthermore, if the storage packs 10 are stacked, the storage packs 10 can be efficiently loaded on a transport box or the like. It is also possible to directly stack more than two storage containers 10. At this time, if the inclination angle of the side wall 15 is appropriately set, the upper storage container can be stacked in the vertical direction on the bottom wall 15 of the lowermost storage container 10.

  As described with reference to FIG. 2, the beads 20 and 21 are formed in the planar regions 30 and 31 that do not extend to the arcs (so-called R: R) of the connecting portion corners in the bottom wall portion 15 and the side wall portions 16 and 17. Is formed. Therefore, when stacking the storage container 10, the bottom wall portion 15 of the upper storage portion 13 can be accommodated in the concave portion 27 of the lid pack 12 even if the beads 20 and 21 are provided.

  The capacitor tab terminal storage container 10 described above includes an opening 14 serving as a storage port for the capacitor tab terminal 1, a rectangular bottom wall 15 that is opposed to the opening 14 and is formed as an inclined surface, and a bottom wall. A storage space 28 for storing the capacitor tab terminal 1 constituted by four side wall portions 16, 17, 18, 19 connected to the portion 15, and a capacitor to be stored at least among the four side wall portions. The storage pack 11 having beads 20 and 21 extending from the opening portion 14 toward the bottom wall portion 15 on the two side wall portions 16 and 17 opposed to each other in the length direction of the tab terminal 1 for use, and fitting into the opening portion 14. And the lid pack 12 having the convex portion 26 capable of.

  The storage pack 11 is formed with beads 20 and 21 on the opposite side walls 16 and 17, and the side walls 16 and 17 of the storage pack 11 are reinforced by the beads 20 and 21. The storage container 10 can be realized. Therefore, since it does not deform | transform with respect to the load at the time of stacking many storage containers 10, it is possible to stack and convey many storage containers and to use a storage container repeatedly. When the lid pack 12 is attached to the storage pack 11, the capacitor tab terminal 1 moves to another storage space 28 by fitting the convex portion 26 of the lid pack 12 into the storage space 28 of the storage pack 11. Can be prevented.

  The beads 20 and 21 are formed in the planar regions 30 and 31 of the two side wall portions 16 and 17 facing each other in the length direction of the capacitor tab terminal 1. As a manufacturing method of the storage pack 11, injection molding, vacuum molding, compressed air molding, or the like can be used. In any of these molding methods, a molding die is used. However, if the beads 20 and 21 are formed in the planar regions 30 and 31, the joint between the beads 20 and 21 and the rounded portion of the side wall 15 is formed. Therefore, the structure of the molding die can be simplified, and the storage pack 11 can be easily manufactured. Further, when stacking a plurality of storage containers, the beads 20 and 21 do not interfere with the top surface 25 of the lid pack 12 and stack.

  In addition, the storage pack 11 is provided with an outer frame portion 33 that opens from the outer periphery of the upper surface 32 toward the bottom wall portion 15, and protrudes over the entire outer periphery. The outer frame portion of the storage pack 11 is provided on the outer periphery of the lid pack 12. An outer frame portion that is detachably fitted to 33 is provided in a projecting manner. Thus, since both the storage pack 11 and the lid pack 12 have the outer frame portions 33.34 over the entire outer periphery, these outer frame portions 33, 34 serve as reinforcing portions, and are used for twisting and bending. The structure is difficult to deform against external forces.

  Further, the lid pack 12 has a concavo-convex surface having a uniform step and a non-uniform planar shape on the entire surface opposite to the storage pack 11. By forming such a concavo-convex surface, it can be made difficult to bend compared to a lid pack having a constant thickness if the thickness is the same. The shape of the concavo-convex surface can be arbitrarily set, and the appearance is superior to a flat surface.

  Further, when the lid pack 12 is mounted on the storage pack 11 in a state where the capacitor tab terminal is stored, the convex portion 26 of the lid pack 12 has a predetermined amount of the capacitor tab terminal in the storage space 28 of the storage portion 13. 1 has a flat surface parallel to a surface formed by connecting the upper surfaces of the uppermost layers of the capacitor tab terminal 1 in a state in which 1 is accommodated. In this way, it is possible to prevent the capacitor tab terminal 1 from being entangled in the storage pack 11 when a predetermined amount of the capacitor tab terminal 1 is stored in the storage container 10.

  The lid pack 12 has a concave portion 27 that can accommodate the bottom wall portion 15 following the shape of the convex portion 26. When stacking a plurality of storage packs 11 to which the lid pack 12 is attached, the bottom wall of the lower storage pack 11 is stacked. When stacking is performed with the inclination direction of the bottom wall portion 15 of the upper storage pack 11 reversed with respect to the inclination direction of the portion 15, the lower storage portion 13 and the upper storage portion 13 are configured in parallel. That is, when the storage containers 10 are directly stacked, the lower wall portion 15 of the lower layer and the upper surface 25 of the upper lid pack 12 are parallel to each other. Accordingly, a plurality of storage containers 10 can be stacked in a stable posture, and a large number of storage containers 10 can be loaded and transported in a transport box or transport pad.

  In the storage container 10 according to the embodiment, the storage pack 10 is a vacuum molded product or a compressed air molded product. Vacuum forming and pressure forming are suitable for forming a thin sheet material into a container having a desired shape, and the thickness of the molded product is constant, and variations in strength can be suppressed. Since the storage pack 11 is reinforced by the beads 20 and 21 and the outer frame portion 33, the load capacity can be obtained even when the sheet thickness is reduced, and the weight can be reduced. The lid pack 12 may be formed by injection molding or the like in addition to vacuum forming or pressure forming.

  The capacitor tab terminal storage container 10 described above is lightweight and has a high load resistance, and therefore can be suitably used as a storage container for long distances such as export. The storage container 10 of the present invention is not limited to the capacitor tab terminal as a storage target, and can be applied as a storage container for other electronic components or lead terminals.

  DESCRIPTION OF SYMBOLS 1 ... Capacitor tab terminal, 2 ... Lead wire, 4 ... Round bar part, 10 ... Storage container of capacitor tab terminal, 11 ... Storage pack, 12 ... Cover pack, 13 ... Storage part, 14 ... Opening part, 15 ... Bottom wall portion, 16, 17, 18, 19 ... side wall portion, 20, 21 ... bead 25 ... top surface of lid pack, 26 ... convex portion, 27 ... concave portion, 28 ... storage space, 30, 31 ... flat region, 32 ... Upper surface of storage pack, 33 ... outer frame portion of storage pack, 34 ... outer frame portion of lid pack

Claims (7)

A capacitor tab terminal storage container for storing a capacitor tab terminal having a round bar portion thicker than the diameter of the lead wire on one end side of the lead wire,
Surrounded by an opening serving as a storage port for the capacitor tab terminal, a quadrangular bottom wall formed opposite to the opening and formed by an inclined surface, and four side walls that are continuous with the bottom wall. The opening is formed in the side wall portion of the two surfaces facing each other in the length direction of at least the capacitor tab terminal to be stored among the storage space for storing the capacitor tab terminal 1 and the four side wall portions. A storage pack having a plurality of beads extending from the portion toward the bottom wall, and
A lid pack having a convex portion that can be inserted into the opening;
Having
A container for a capacitor tab terminal. In the storage container for the capacitor tab terminal according to claim 1,
The bead is formed in a planar region of the two side walls facing each other in the length direction of the capacitor tab terminal.
A container for a capacitor tab terminal. In the storage container for the capacitor tab terminal according to claim 1 or 2,
In the storage pack, an outer frame portion that opens from the outer periphery of the upper surface toward the bottom wall portion side is projected over the entire outer periphery,
On the outer periphery of the lid pack, an outer frame portion that is detachably fitted to the outer frame portion of the storage pack is protruded.
A container for a capacitor tab terminal. In the storage container for the capacitor tab terminal according to any one of claims 1 to 3,
The lid pack has an uneven surface with a uniform step and a non-uniform planar shape on the entire surface opposite to the storage pack.
A container for a capacitor tab terminal. In the storage container for the capacitor tab terminal according to any one of claims 1 to 4,
When the lid pack is attached to the storage pack in a state where the capacitor tab terminal is stored, the convex portion of the cover pack is in a state where a predetermined amount of the capacitor tab terminal is stored in the storage space. Having a flat surface parallel to the surface formed by connecting the upper surfaces of the uppermost layers of the capacitor tab terminals;
A container for a capacitor tab terminal. In the storage container for the capacitor tab terminal according to any one of claims 1 to 5,
The lid pack has a concave portion that can accommodate the bottom wall portion following the shape of the convex portion,
When stacking a plurality of the storage packs to which the lid pack is attached, stacking is performed with the inclination direction of the bottom wall portion of the upper storage pack being reversed with respect to the inclination direction of the bottom wall portion of the lower storage pack. The lower storage part and the upper storage part are configured in parallel,
A container for a capacitor tab terminal. In the storage container of the tab terminal for capacitors according to any one of claims 1 to 6,
The storage pack is a vacuum molded product or a compressed air molded product,
A container for a capacitor tab terminal.

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