JP2021120298A - Tray for electronic component - Google Patents

Abstract

To provide a tray for an electronic component capable of preventing pins provided on the electronic component from deforming.SOLUTION: The tray for an electronic component is utilized for holding a battery 41 with tab; the battery 41 with tab includes a prismatically formed body part 42 and a first pin 43 arranged along a side face of the prismatic body; the tray for an electronic component includes a first mounting part 6, a second mounting part 7, and a pin storage part 8 arranged between the first mounting part 6 and the second mounting part 7; a depression 14 is formed in the pin storage part 8 so that pin storage spaces surrounded by the pin storage part 8 and the body part 42 are formed when a side face part 47 of the body part 42 comes in contact with the first mounting part 6 and the second mounting part 7.SELECTED DRAWING: Figure 9

Description

The technology of the present disclosure relates to trays for electronic components.

A battery tray used for transporting a plurality of batteries is known (Patent Document 1). In this battery tray, a plurality of partition portions are arranged in a predetermined direction, and the batteries are arranged between the adjacent partition portions, so that the plurality of batteries can be appropriately held.

JP-A-2015-91714

However, such a battery tray has a problem that when holding a battery provided with a pin, the pin interferes with the tray or the like, causing the pin to bend.

The disclosed technique has been made in view of this point, and an object of the present invention is to provide a tray for an electronic component that prevents the pins provided on the electronic component from being deformed.

The tray for electronic components according to one aspect of the present disclosure holds an electronic component having a main body portion formed on the prism and pins arranged along the side surface of the prism. The tray for electronic components includes a first mounting portion, a second mounting portion, and a pin storage portion arranged between the first mounting portion and the second mounting portion. In the pin storage portion, when the side surface portion of the main body portion corresponding to the side surface comes into contact with the first mounting portion and the second mounting portion, the pin storage portion and the main body portion are subjected to. A recess is formed so that an enclosed pin storage space is formed.

The disclosed electronic component tray can prevent the pins provided on the electronic component from being deformed.

FIG. 1 is a perspective view showing a tray for electronic components according to the first embodiment. FIG. 2 is a plan view showing a tray for electronic components according to the first embodiment. FIG. 3 is a cross-sectional view showing the E-E'-F-F' line cross section of FIG. 2 and showing the tray for electronic components of the first embodiment. FIG. 4 is a plan view showing the holding portion. FIG. 5 is a cross-sectional view taken along the line CC'-D-D' of FIG. 2, and is another cross-sectional view showing the tray for electronic components of the first embodiment. FIG. 6 is a perspective view showing a battery with a tab. FIG. 7 is a side view showing a battery with tabs. FIG. 8 is a plan view showing a battery with tabs. FIG. 9 is a cross-sectional view showing a state in which the tray for electronic components of the first embodiment holds a battery with a tab. FIG. 10 is a plan view showing how the tray for electronic components of the first embodiment holds a tabbed battery. FIG. 11 is a cross-sectional view showing a state in which the tray for electronic components of the first embodiment is stacked on the tray for other electronic components. FIG. 12 is a perspective view showing a decorative box of a comparative example. FIG. 13 is a cross-sectional view showing a holding portion of the tray for electronic components of the second embodiment. FIG. 14 is a cross-sectional view showing a state in which the tray for electronic components of the second embodiment is stacked on the tray for other electronic components.

Hereinafter, the tray for electronic components according to the embodiment disclosed in the present application will be described with reference to the drawings. The following description does not limit the technique of the present disclosure. Further, in the following description, the same components are given the same reference numerals, and duplicate description will be omitted.

The tray 1 for electronic components of the first embodiment is formed of an insulator exemplified by a resin, and is formed in a substantially square columnar shape as shown in FIG. FIG. 1 is a perspective view showing a tray 1 for electronic components according to the first embodiment. The tray 1 for electronic components of the first embodiment includes a plurality of holding portions 2-1 to 2-20, a connecting portion 3, and an outer frame portion 5. FIG. 2 is a plan view showing the tray 1 for electronic components of the first embodiment. The plurality of holding portions 2-1 to 2-20 are arranged along the bottom surface of the quadrangular prism. The connecting portion 3 is integrally joined to the plurality of holding portions 2-1 to 2-20 so that the plurality of holding portions 2-1 to 2-20 are fixed to each other. The outer frame portion 5 surrounds the plurality of holding portions 2-1 to 2-20 and the connecting portion 3, and forms an edge of the tray 1 for electronic components. The outer frame portion 5 is connected to the plurality of holding portions 2-1 to 2-20 so that the plurality of holding portions 2-1 to 2-20 and the connecting portion 3 are fixed to the outer frame portion 5. It is integrally joined with 3.

FIG. 3 is a cross-sectional view taken along the line E-E'-F-F' of FIG. 2 and shows a tray 1 for electronic components according to the first embodiment. The outer frame portion 5 is formed of a bent plate and is arranged so as to substantially follow the four side surfaces of the square pillar. The outer frame portion 5 is further along a plane inclined with respect to the side surface of the quadrangular prism so that the distribution width in the direction parallel to the bottom surface of the electronic component tray 1 increases as it approaches the lower side. It is formed so as to spread downward.

One of the plurality of holding portions 2-1 to 2-20, the holding portion 2-1 is formed of a bent plate, and the first mounting portion 6, the second mounting portion 7, and the pin storage portion 8 are formed. And have. The first mounting portion 6 is formed with a first side surface facing surface 11. A second side surface facing surface 12 is formed on the second mounting portion 7. The pin storage portion 8 is arranged between the first mounting portion 6 and the second mounting portion 7. A recess 14 is formed in the pin storage portion 8. The pin storage unit 8 includes a partition unit 15. The partition portion 15 is arranged inside the recess 14 so that the pin storage space inside the recess 14 is separated from the first pin storage space 16 and the second pin storage space 17. The partition portion 15 is further formed with a third side surface facing surface 18.

A curved surface 19 is further formed on the pin storage portion 8. The curved surface 19 is formed on the opposite side of the pin storage portion 8 facing the pin storage space, and is formed along the side surface of a predetermined cylinder.

FIG. 4 is a plan view showing the holding portion 2-1. The axial direction 20 is set in the holding portion 2-1. The axial direction 20 is parallel to the bottom surface of the square pillar on which the tray 1 for electronic components is formed. The first side surface facing surface 11 is formed along a straight line parallel to the axial direction 20. The second side surface facing surface 12 is formed along a straight line parallel to the axial direction 20. The third side surface facing surface 18 is formed along a straight line parallel to the axial direction 20. The first pin storage space 16 is formed in a groove shape along a straight line parallel to the axial direction 20. The second pin storage space 17 is formed in a groove shape along a straight line parallel to the axial direction 20. Further, although not shown, the curved surface 19 of the pin storage portion 8 is formed along the side surface of a cylinder whose axial direction is parallel to the axial direction 20.

The pin storage portion 8 further includes a first bottom surface facing portion 21, a second bottom surface facing portion 22, a first closing portion 23, and a second closing portion 24. The first bottom surface facing portion 21 is formed at the end of the holding portion 2-1 in the positive direction in the axial direction 20. A first bottom surface facing surface 25 is formed on the first bottom surface facing portion 21. The first bottom surface facing surface 25 faces the second bottom surface facing portion 22 along a plane perpendicular to the axial direction 20. The second bottom surface facing portion 22 is formed at the end of the holding portion 2-1 in the negative direction in the axial direction 20. A second bottom surface facing surface 26 is formed on the second bottom surface facing portion 22. The second bottom surface facing surface 26 faces the first bottom surface facing portion 21 along a plane perpendicular to the axial direction 20.

The first closing portion 23 is arranged on the positive side of the first pin storage space 16 in the axial direction 20. The second closing portion 24 is arranged on the negative side of the second pin storage space 17 in the axial direction 20.

The holding portion 2-1 is further formed with a first relief space 31 and a second relief space 32. The first relief space 31 is formed on the negative side of the first pin storage space 16 in the axial direction 20. The first relief space 31 is further formed so as to overlap the second closing portion 24 in the width direction 29. The width direction 29 is parallel to the bottom surface of the square pillar formed by the electronic component tray 1 and is perpendicular to the axial direction 20. The first relief space 31 is connected to the first pin storage space 16. The second relief space 32 is formed on the positive side of the second pin storage space 17 in the axial direction 20. The second relief space 32 is further formed so as to overlap the first closing portion 23 in the width direction 29. The second relief space 32 is connected to the second pin storage space 17.

Of the plurality of holding portions 2-1 to 2-20, the other holding portions different from the holding portions 2-1 are formed in the same manner as the holding portions 2-1. In the electronic component tray 1, as shown in FIG. 2, the axial directions 20 of some of the holding portions 2-1 to 2-20 of the plurality of holding portions 2-1 to 2-20 are parallel to each other. It is formed so that it is. In the tray 1 for electronic components, the axial directions 20 of the remaining holding portions 2-6 to 2-20 of the plurality of holding portions 2-1 to 2-20 are parallel to each other, and some of them are parallel to each other. The holding portions 2-1 to 2-5 are formed so as to be perpendicular to the axial direction 20.

As shown in FIG. 4, the tray 1 for electronic components has a holding portion partition between the two holding portions when the two holding portions whose axial directions 20 are parallel to each other are arranged in the width direction 29. The unit 33 is provided. FIG. 5 is a cross-sectional view taken along the line CC'-D-D' of FIG. 2, and is another cross-sectional view showing the tray 1 for electronic components of the first embodiment. The holding portion partition portion 33 projects upward from the third side surface facing surface 18 and, although not shown, protrudes upward from the first side surface facing surface 11 and the second side surface facing surface 12. , Is formed. A recess 34 is formed in the holding portion partition portion 33. The recess 34 is formed in the central portion of the holding portion partition portion 33 in the axial direction 20. The tray 1 for electronic components includes a plurality of partition portions formed in the same manner as the holding portion partition portion 33.

The tray 1 for electronic components is integrally formed by vacuum forming a sheet formed of resin.

As shown in FIG. 6, the tabbed battery 41 held by the tray 1 for electronic components includes a main body portion 42, a first pin 43, and a second pin 44. FIG. 6 is a perspective view showing the battery 41 with a tab. The tabbed battery 41 includes a main body portion 42, a first pin 43, and a second pin 44. The main body portion 42 is formed in a substantially cylindrical shape, and is formed in an elongated shape so that the height of the cylinder is larger than the diameter of the circle on the bottom surface of the cylinder. The first pin 43 is formed from a conductor exemplified by metal, and is formed in a rod shape. The second pin 44 is formed from a conductor exemplified by metal, and is formed in a rod shape.

FIG. 7 is a side view showing the battery 41 with tabs. The main body portion 42 includes a first bottom surface portion 45, a second bottom surface portion 46, and a side surface portion 47. The first bottom surface portion 45 is arranged at a portion of the main body portion 42 corresponding to the bottom surface of one of the cylinders, and is formed along a plane perpendicular to the axial direction 48 of the cylinder. The second bottom surface portion 46 is arranged at a portion of the main body portion 42 corresponding to the other bottom surface of the cylinder, and is formed along a plane perpendicular to the axial direction 48. The side surface portion 47 is arranged at a portion of the main body portion 42 corresponding to the side surface of the cylinder.

The first pin 43 includes a joint portion 51, a side surface side portion 52, and a bottom surface side portion 53. One end of the first pin 43 is formed in the joint portion 51. The other end of the first pin 43 is formed on the bottom surface side portion 53. The bottom surface side portion 53 is formed between the joint portion 51 and the side surface side portion 52. The joint portion 51 is joined to the first bottom surface portion 45 of the main body portion 42. The side surface side portion 52 is formed substantially in a straight line, and is arranged in the vicinity of the side surface portion 47 so as to follow a straight line parallel to the axial direction 48 and so that the side surface side portion 52 does not contact the side surface portion 47. ing. The bottom surface side portion 53 is formed substantially linearly and is arranged along the first bottom surface portion 45. That is, the first pin 43 is between the side surface side portion 52 and the bottom surface side portion 53 so that the side surface side portion 52 is along the side surface portion 47 and the bottom surface side portion 53 is along the first bottom surface portion 45. The part of is bent.

The second pin 44 includes a joint portion 55, a side surface side portion 56, and a bottom surface side portion 57. One end of the second pin 44 is formed in the joint portion 55. The other end of the second pin 44 is formed on the bottom surface side portion 57. The bottom surface side portion 57 is formed between the joint portion 55 and the side surface side portion 56. The joint portion 55 is joined to the second bottom surface portion 46 of the main body portion 42. The side surface side portion 56 is formed substantially in a straight line, and is arranged in the vicinity of the side surface portion 47 so as to follow a straight line parallel to the axial direction 48 and so that the side surface side portion 56 does not contact the side surface portion 47. ing. The bottom surface side portion 57 is formed substantially linearly and is arranged along the second bottom surface portion 46. That is, the second pin 44 is between the side surface side portion 56 and the bottom surface side portion 57 so that the side surface side portion 56 is along the side surface portion 47 and the bottom surface side portion 57 is along the second bottom surface portion 46. The part of is bent.

FIG. 8 is a plan view showing the battery 41 with tabs. The first pin 43 and the second pin 44 are further combined with the side surface side portion 52 and the side surface side portion 56 so that the side surface side portion 52 of the first pin 43 and the side surface side portion 56 of the second pin 44 do not come into contact with each other. Are arranged so that they are separated by a predetermined distance. The first pin 43 and the second pin 44 are appropriately deformed and electrically connected to the electric circuit before the tabbed battery 41 is used. The tabbed battery 41 applies a predetermined voltage to the electric circuit via the first pin 43 and the second pin 44, and supplies DC power to the electric circuit via the first pin 43 and the second pin 44. Supply.

The electronic component tray 1 is used when transporting the tabbed battery 41. The tabbed battery 41 is held in the electronic component tray 1 when the tabbed battery 41 is conveyed. FIG. 9 is a cross-sectional view showing how the tray 1 for electronic components of the first embodiment holds the tabbed battery 41. The tabbed battery 41 is appropriately held by the holding portion 2-1 by arranging the tabbed battery 41 at an appropriate position with respect to the holding portion 2-1. The side surface side portion 52 of the first pin 43 is arranged in the first pin storage space 16 by appropriately arranging the tabbed battery 41 in the holding portion 2-1. The side surface side portion 56 of the second pin 44 is arranged in the second pin storage space 17 by appropriately arranging the tabbed battery 41 in the holding portion 2-1. Therefore, in the electronic component tray 1, when the tabbed battery 41 is appropriately arranged in the holding portion 2-1 the side surface side portion 52 and the side surface side portion 56 come into contact with the electronic component tray 1. Can be prevented.

The main body portion 42 is first so that the side surface portion 47 faces the first side surface facing surface 11 and the second side surface facing surface 12 by appropriately arranging the tabbed battery 41 in the holding portion 2-1. It is mounted on the mounting portion 6 and the second mounting portion 7. Further, the side surface portion 47 comes into contact with the third side surface facing surface 18 of the partition portion 15 by appropriately mounting the main body portion 42 on the first mounting portion 6 and the second mounting portion 7. That is, the partition portion 15 is formed so that the side surface portion 47 comes into contact with the third side surface facing surface 18 when the tabbed battery 41 is appropriately arranged in the holding portion 2-1. Therefore, the tray 1 for electronic components can appropriately hold the tabbed battery 41 so that the main body portion 42 does not roll when the tabbed battery 41 is appropriately arranged in the holding portion 2-1. ..

Further, the first pin storage space 16 and the second pin storage space 17 are separated from each other via the partition portion 15 by appropriately arranging the tabbed battery 41 in the holding portion 2-1. Therefore, in the tray 1 for electronic components, when the battery 41 with a tab is appropriately arranged in the holding portion 2-1 the side portion 52 of the first pin 43 and the side portion 56 of the second pin 44 are formed. It is possible to prevent contact. The tray 1 for electronic components can prevent the first pin 43 and the second pin 44 from being short-circuited by preventing the side surface side portion 52 and the side surface side portion 56 from coming into contact with each other.

FIG. 10 is a plan view showing how the tray 1 for electronic components of the first embodiment holds the tabbed battery 41. The bottom surface side portion 53 of the first pin 43 is arranged in the first relief space 31 by appropriately arranging the tabbed battery 41 in the holding portion 2-1. The bottom surface side portion 57 of the second pin 44 is arranged in the second relief space 32 by appropriately holding the tabbed battery 41 in the holding portion 2-1. Therefore, in the electronic component tray 1, the first pin 43 and the second pin 44 do not come into contact with the electronic component tray 1 when the tabbed battery 41 is appropriately arranged in the holding portion 2-1. As described above, the tabbed battery 41 can be appropriately held.

The first closing portion 23 provides an external space in which the first bottom surface portion 45 of the main body portion 42 is arranged and the first pin storage space 16 by appropriately arranging the tabbed battery 41 in the holding portion 2-1. Separated. The second closing portion 24 provides an external space in which the second bottom surface portion 46 of the main body portion 42 is arranged and a second pin storage space 17 by appropriately arranging the tabbed battery 41 in the holding portion 2-1. Separated. That is, the first pin storage space 16 and the second pin storage space 17 are surrounded by the pin storage portion 8 and the main body portion 42 by appropriately arranging the tabbed battery 41 in the holding portion 2-1. Therefore, in the tray 1 for electronic components, when the battery 41 with a tab is appropriately arranged in the holding portion 2-1 a foreign substance different from the tray 1 for electronic components comes into contact with the side surface side portion 52 and the side surface side portion 56. It can be prevented from doing so.

The first bottom surface portion 45 of the main body portion 42 faces the first bottom surface facing surface 25 of the first bottom surface facing portion 21 by appropriately arranging the tabbed battery 41 in the holding portion 2-1. The second bottom surface portion 46 of the main body portion 42 faces the second bottom surface facing surface 26 of the second bottom surface facing portion 22 by appropriately arranging the tabbed battery 41 in the holding portion 2-1. Therefore, the tray 1 for electronic components prevents the tabbed battery 41 from moving in parallel to the axial direction 20 by a distance larger than a predetermined distance when the tabbed battery 41 is appropriately arranged in the holding portion 2-1. In addition, the tabbed battery 41 can be appropriately held.

In the tabbed battery 41, when the side surface side portion 56 of the second pin 44 is inserted into the first pin storage space 16, for example, the bottom surface side portion 57 of the second pin 44 interferes with the first closing portion 23. It is not properly arranged on the holding portion 2-1 and is placed on the holding portion 2-1 in an inclined state. In the tabbed battery 41, when the side surface side portion 52 of the first pin 43 is inserted into the second pin storage space 17, for example, the bottom surface side portion 53 of the first pin 43 interferes with the second closing portion 24. It is not properly arranged on the holding portion 2-1 and is placed on the holding portion 2-1 in an inclined state. Therefore, the user confirms whether or not the tabbed battery 41 mounted on the holding portion 2-1 is tilted, so that the tabbed battery 41 is properly mounted on the holding portion 2-1. It can be easily confirmed whether or not it is. That is, whether or not the tabbed battery 41 is appropriately arranged with respect to the holding portion 2-1 because the tray 1 for electronic components is provided with the first closing portion 23 and the second closing portion 24. The work of confirming can be facilitated.

When the tabbed battery 41 is properly arranged in the holding portion 2-1 the user can insert a finger inside the recess 34 to pick up the main body portion 42 and easily pick up the tabbed battery 41. That is, the tray 1 for electronic components can appropriately hold the tabbed battery 41 so that the user can easily handle the tabbed battery 41 because the recess 34 is formed.

The tray 1 for electronic components can hold a plurality of tabbed batteries in a plurality of holding portions 2-1 to 2-20, respectively. When the plurality of tabbed batteries are held by the plurality of holding portions 2-1 to 2-20, the user can easily transport the plurality of tabbed batteries by transporting the tray 1 for electronic components. Can be done. That is, the tray 1 for electronic components can facilitate the work of handling a plurality of tabbed batteries.

As shown in FIG. 11, the electronic component tray 1 can be stacked on another electronic component tray 61 formed in the same manner as the electronic component tray 1. FIG. 11 is a cross-sectional view showing a state in which the tray 1 for electronic components of the first embodiment is stacked on the tray 61 for other electronic components. The inner surface of the outer frame portion 5 of the electronic component tray 1 is formed so as to spread downward when the electronic component tray 1 is appropriately stacked on the electronic component tray 61. , In contact with the outer surface of the outer frame portion 5 provided on the electronic component tray 61. In the electronic component tray 1, the inner surface of the outer frame portion 5 of the electronic component tray 1 is in contact with the outer surface of the outer frame portion 5 of the electronic component tray 61, so that the electronic component tray 1 is in the horizontal direction. It is properly held in the electronic component tray 61 so as not to move.

The plurality of holding portions 2-1 to 2-20 of the electronic component tray 1 are provided on the electronic component tray 61 when the electronic component tray 1 is appropriately stacked on the electronic component tray 61. It is arranged on each of the plurality of holding portions 2-1 to 2-20. The curved surface 19 of the holding portion 2-i (i = 1, 2, 3, ..., 20) of the electronic component tray 1 is formed when the electronic component tray 1 is appropriately stacked on the electronic component tray 61. , It comes into contact with the side surface portion 47 of the tabbed battery 62 held by the holding portion 2-i provided on the tray 61 for electronic components, and meshes with the side surface portion 47. The holding portion 2-i of the tray 1 for electronic components is prevented from sinking or moving in the width direction 29 of the holding portion 2-i by engaging the curved surface 19 with the side surface portion 47 of the tabbed battery 62. In addition, the tray 61 for electronic components can be appropriately held by the holding portion 2-i. Further, when the tray 1 for electronic components is properly stacked on the tray 61 for electronic components, the plurality of holding portions 2-1 to 2-20 include holding portions having different axial directions 20. Therefore, it can be stably held in the tray 61 for electronic parts.

[Comparative example cosmetic box 100]
As shown in FIG. 12, the cosmetic box 100 of the comparative example is provided with a plurality of partitions 102 inside. FIG. 12 is a perspective view showing a decorative box 100 of a comparative example. The inside of the dressing box 100 is separated into a plurality of storage spaces by providing a plurality of partitions 102. By inserting the plurality of tabbed batteries into the plurality of storage spaces, the dressing box 100 can hold the plurality of tabbed batteries so that the plurality of tabbed batteries do not interfere with each other.

[Vibration test]
A vibration test has been performed on the tray 1 for electronic components of Example 1 and the cosmetic box 100 of Comparative Example. The vibration test includes a vibration process and an inspection process. The vibrating process is performed using a vibrating device. The vibrating device includes a mounting table and a vibrating mechanism that vibrates the mounting table up and down. The vibration test includes an X-direction vibration test, a Y-direction vibration test, and a Z-direction vibration test, and predetermined vibrations are applied to the mounting table in each of the X-direction vibration test, the Y-direction vibration test, and the Z-direction vibration test. Be done. The vibration has an amplitude of 2 mm, a frequency of 37.3 Hz and a duration of 30 minutes.

In the X-direction vibration test, the test object is placed on the mounting table so that the first surface of the rectangular parallelepiped test target faces the mounting table, and the test target is placed on the mounting table on the mounting table. Vibration is given. In the Y-direction vibration test, the test object is placed on the mounting table so that the second surface adjacent to the first surface of the test target faces the mounting table, and the test target is placed on the mounting table. Vibration is applied to the mounting table. In the Z-direction vibration test, the test object is placed on the mounting table so that the third surface adjacent to the first and second surfaces of the test target faces the mounting table, and the test target is placed on the mounting table. In this state, vibration is applied to the mounting table.

In the inspection process, it is confirmed whether or not the first pin 43 and the second pin 44 of the plurality of tabbed batteries held in the test object on which the vibration process is executed satisfy the predetermined standards, and it is NG. The rate is calculated. The NG rate indicates a value obtained by dividing the number of tabbed batteries that do not satisfy the standard among the plurality of tabbed batteries held in the test target by the number of the plurality of tabbed batteries.

In the test target corresponding to the electronic component tray 1 of the first embodiment, a plurality of electronic component trays 1 are prepared, and the plurality of electronic component trays 1 are appropriately stacked for a plurality of electronic components in a stacked state. It is made by packing trays in packing boxes. A plurality of tabbed batteries are appropriately held in the plurality of holding portions 2-1 to 2-20 of the electronic component tray 1. The test object corresponding to the cosmetic box 100 of the comparative example is produced by inserting a plurality of tabbed batteries into a plurality of storage spaces.

The result of the vibration test for the electronic component tray 1 of Example 1 shows that all of the 20 tabbed batteries held in the electronic component tray 1 satisfy the standard, and the NG rate is 0%. It shows that there is. The result of the vibration test for the dressing box 100 of the comparative example showed that all of the 20 tabbed batteries held in the dressing box 100 did not meet the standard, and showed that the NG rate was 100%. There is. The result of the vibration test shows that the tray 1 for electronic parts of Example 1 can further prevent the deformation of the first pin 43 and the second pin 44 as compared with the cosmetic box 100 of the comparative example. ..

[Effect of Tray 1 for Electronic Components of Example 1]
The electronic component tray 1 of the first embodiment is used to hold the tabbed battery 41. The tabbed battery 41 includes a main body portion 42 formed on the pillar body and a first pin 43 arranged along the side surface of the pillar body. The tray 1 for electronic components includes a first mounting portion 6 on which a first side surface facing surface 11 is formed, a second mounting portion 7 on which a second side surface facing surface 12 is formed, and a first mounting portion 6. It is provided with a pin storage portion 8 arranged between the second mounting portion 7. In the pin storage portion 8, when the side surface portion 47 corresponding to the side surface of the main body portion 42 comes into contact with the first side surface facing surface 11 and the second side surface facing surface 12, the pin storage portion 8 and the main body portion 42 are connected to each other. The recess 14 is formed so that the enclosed pin storage space is formed.

In the electronic component tray 1, when the main body portion 42 of the tabbed battery 41 is mounted on the first mounting portion 6 and the second mounting portion 7 so that the first pin 43 is arranged in the pin storage space. The first pin 43 can be surrounded by the main body portion 42 of the tabbed battery 41 and the pin storage portion 8. At this time, in the tray 1 for electronic components, the first pin 43 is surrounded by the main body portion 42 and the pin storage portion 8, so that the first pin 43 is prevented from interfering with foreign matter, and the first pin 43 is deformed. It can be prevented from doing so.

Further, the pin storage space of the electronic component tray 1 of the first embodiment includes the first pin storage space 16 and the second pin storage space 17. The pin storage portion 8 includes a partition portion 15 that separates the first pin storage space 16 and the second pin storage space 17. In the electronic component tray 1, the first pin 43 and the second pin 44 can be arranged in the first pin storage space 16 and the second pin storage space 17, respectively, and the first pin 43 and the second pin 44 Can be prevented from coming into contact with each other. The tray 1 for electronic components can prevent the first pin 43 and the second pin 44 from being electrically short-circuited by preventing the first pin 43 and the second pin 44 from coming into contact with each other. can.

Further, a first relief space 31 is further formed in the pin storage portion 8 of the electronic component tray 1 of the first embodiment. The first relief space 31 is an external space in which the first bottom surface portion 45 of the main body portion 42 is arranged when the side surface portion 47 of the main body portion 42 comes into contact with the first side surface facing surface 11 and the second side surface facing surface 12. And the first pin storage space 16 are connected. In the electronic component tray 1, even when the first pin 43 is joined to the first bottom surface portion 45, the first pin 43 is prevented from interfering with a part of the electronic component tray 1, and the first pin 43 is prevented. Can be prevented from being deformed.

Further, the tray 1 for electronic components of the first embodiment further includes a first closing portion 23. The first closed portion 23 is a second bottom surface portion corresponding to the other bottom surface of the pillar body of the main body portion 42 when the side surface portion 47 comes into contact with the first side surface facing surface 11 and the second side surface facing surface 12. The first pin storage space 16 is separated from another external space in which the 46 is arranged. In the tabbed battery 41, when the second pin 44 is arranged in the first pin storage space 16, the bottom surface side portion 57 of the second pin 44 interferes with the first closing portion 23, so that the main body portion 42 is tilted. It is arranged in the holding portion 2-1 in the state of being closed. The user can easily confirm whether or not the tabbed battery 41 is properly arranged with respect to the holding portion 2-1 based on whether or not the main body portion 42 is tilted. That is, the tray 1 for electronic components can facilitate the work of confirming whether or not the battery 41 with tabs is appropriately arranged with respect to the holding portion 2-1.

Further, the tray 1 for electronic components of the first embodiment further includes a first bottom surface facing portion 21 and a second bottom surface facing portion 22. The first bottom surface facing portion 21 faces one bottom surface of the prism when the side surface portion 47 contacts the first side surface facing surface 11 and the second side surface facing surface 12. The second bottom surface facing portion 22 faces the other bottom surface of the prism when the side surface portion 47 contacts the first side surface facing surface 11 and the second side surface facing surface 12. The tray 1 for electronic components can appropriately hold the tabbed battery 41 so that the tabbed battery 41 does not move in the axial direction 20.

Further, a curved surface 19 along the side surface portion 47 is formed on the back side of the surface of the pin storage portion 8 of the electronic component tray 1 of the first embodiment facing the pin storage space. When the electronic component tray 1 is stacked on the electronic component tray 61 formed in the same manner as the electronic component tray 1, the side portion 47 of the tabbed battery 62 held in the electronic component tray 61 The curved surface 19 can be engaged. In the electronic component tray 1, the curved surface 19 is meshed with the side surface portion 47 of the tabbed battery 62 so that the holding portion 2-1 does not move parallel to the electronic component tray 61 in the width direction 29. It can be stably held on the tray 61 for electronic components.

Further, the tray 1 for electronic components of the first embodiment further includes a connecting portion 3 for fixing a plurality of holding portions 2-1 to 2-20 to each other. When the plurality of tabbed batteries are held in the plurality of holding units 2-1 to 2-20, the user can transport the plurality of tabbed batteries together with the tray 1 for electronic components at once. That is, the tray 1 for electronic components can facilitate the work of handling the plurality of tabbed batteries when the plurality of tabbed batteries are held by the plurality of holding portions 2-1 to 2-20, respectively.

Further, the plurality of holding portions 2-1 to 2-20 of the electronic component tray 1 of the first embodiment include holding portions having different axial directions 20. The electronic component tray 1 is for electronic components so that the plurality of holding portions 2-1 to 2-20 include holding portions having different axial directions 20 so as not to move with respect to the electronic component tray 61. It can be stably held in the tray 61.

By the way, the tray 1 for electronic components of the first embodiment described above includes holding portions having different axial directions 20, but even if the axial directions 20 of the plurality of holding portions 2-1 to 2-20 are equal to each other. good. The tray 1 for electronic components can prevent the first pin 43 from being deformed even when the axial directions 20 of the plurality of holding portions 2-1 to 2-20 are equal to each other.

The electronic component tray of the second embodiment is obtained by replacing the plurality of holding portions 2-1 to 2-20 of the electronic component tray 1 of the first embodiment described above with other plurality of holding portions. The portion of is the same as the tray 1 for electronic components of the first embodiment described above. In the holding unit 71 of one of the plurality of replaced holding units, as shown in FIG. 13, the pin storage unit 8 of the holding unit 2-1 described above is replaced with another pin storage unit 72. The other parts are the same as those of the holding portion 2-1 described above. FIG. 13 is a cross-sectional view showing a holding portion of the tray for electronic components of the second embodiment.

Similar to the holding portion 2-1 described above, the pin storage portion 72 is formed with a recess 14 and includes a partition portion 15. The partition portion 15 is arranged inside the recess 14 so that the pin storage space inside the recess 14 is separated from the first pin storage space 16 and the second pin storage space 17. A flat surface 73 is further formed on the pin storage portion 72. The flat surface 73 is formed on the side of the pin storage portion 72 opposite to the side facing the pin storage space, and is formed along the plane. Of the plurality of holding portions provided on the tray for electronic components of the second embodiment, other holding portions different from the holding portion 71 are also formed in the same manner as the holding portion 71. The holding unit 71 can hold the tabbed battery 41 in the same manner as the holding unit 2-1 described above. Therefore, the tray for electronic components of the second embodiment has the first pin 43 and the second pin 44 when the tabbed battery 41 is held, similarly to the tray 1 for the electronic components of the first embodiment described above. Deformation can be prevented.

As shown in FIG. 14, the electronic component tray 70 of the second embodiment is formed in the same manner as the stacked electronic component trays 70, similarly to the electronic component tray 1 of the first embodiment described above. It can be stacked on top of other electronic component trays 75. FIG. 14 is a cross-sectional view showing a state in which the tray 70 for electronic components of the second embodiment is stacked on the tray 75 for other electronic components. The flat surface 73 of the holding portion 71 of the electronic component tray 70 is formed on the holding portion 71 provided on the electronic component tray 75 when the electronic component tray 70 is appropriately stacked on the electronic component tray 75. It comes into contact with the side surface portion 47 of the held tabbed battery 62 and is placed on the side surface portion 47. The holding portion 71 of the electronic component tray 70 is suitable for the holding portion 71 of the electronic component tray 75 so that the flat surface 73 is placed on the side surface portion 47 of the tabbed battery 62 so as not to sink. Can be held in.

The holding portion 71 of the electronic component tray 70 has an axial direction 20 or a width with respect to the side surface portion 47 of the tabbed battery 76 held by the holding portion 71 of the electronic component tray 75 because the flat surface 73 is flat. It may move parallel to the direction 29. Therefore, the electronic component tray 1 of the first embodiment described above is appropriately held so as not to move in the horizontal direction when stacked as compared with the electronic component tray 70 of the second embodiment. be able to.

By the way, the tray for electronic components of the above-described embodiment is provided with the first closed portion 23 and the second closed portion 24, but even if the first closed portion 23 and the second closed portion 24 are omitted. good. Further, although the tray for electronic components of the above-described embodiment is provided with a partition portion 15 that separates the first pin storage space 16 and the second pin storage space 17, the partition portion 15 may be omitted. Even if such an omission is made, the electronic component tray can prevent the first pin 43 and the second pin 44 from being deformed, similarly to the electronic component tray of the above-described embodiment.

By the way, the tray for electronic components of the above-described embodiment is used for holding the tabbed battery 41, but it can also be used for holding electronic components different from the tabbed battery. An example of the electronic component is a capacitor. Even when the tray for electronic components of the embodiment is used for holding an electronic component different from the tabbed battery, it is possible to prevent the pins provided on the electronic component from being deformed.

Although the examples have been described above, the examples are not limited by the contents described above. Further, the above-mentioned components include those that can be easily assumed by those skilled in the art, those that are substantially the same, that is, those having a so-called equal range. Furthermore, the components described above can be combined as appropriate. Further, at least one of various omissions, substitutions and changes of components may be made without departing from the gist of the embodiment.

1: Tray for electronic components 2-1 to 2-20: Multiple holding parts 6: First mounting part 7: Second mounting part 8: Pin storage part 11: First side facing surface 12: Second side facing Surface 14: Recess 15: Partition 16: 1st pin storage space 17: 2nd pin storage space 19: Curved surface 21: 1st bottom surface facing part 22: 2nd bottom surface facing part 23: 1st closed part 24: 2nd closed part Part 25: First bottom surface facing surface 26: Second bottom surface facing surface 31: First relief space 32: Second relief space 41: Battery with tab 42: Main body part 43: First pin 44: Second pin 45: First Bottom part 46: Second bottom part 47: Side part 70: Tray for electronic parts 71: Holding part 72: Pin storage part 73: Flat surface

Claims (8)

The main body formed on the prism and
A tray for electronic components that holds electronic components having pins arranged along the side surfaces of the prism.
The first mounting part and
The second mounting part and
A pin storage portion arranged between the first mounting portion and the second mounting portion is provided.
In the pin storage portion, when the side surface portion of the main body portion corresponding to the side surface comes into contact with the first mounting portion and the second mounting portion, the pin storage portion and the main body portion are subjected to. A tray for electronic components in which a recess is formed so that an enclosed pin storage space is formed. The pin storage space includes a first pin storage space and a second pin storage space.
The tray for electronic components according to claim 1, wherein the pin storage portion has a partition portion that separates the first pin storage space from the second pin storage space. The pin storage portion has a bottom surface portion corresponding to the bottom surface of one of the pillars in the main body portion when the side surface portion contacts the first mounting portion and the second mounting portion. The tray for electronic components according to claim 2, wherein a relief space for connecting the arranged external space and the first pin storage space is further formed. When the side surface portion comes into contact with the first mounting portion and the second mounting portion, another bottom surface portion corresponding to the other bottom surface of the pillar body in the main body portion is arranged. The tray for electronic components according to claim 3, further comprising a closed portion that separates the external space from the first pin storage space. When the side surface portion comes into contact with the first mounting portion and the second mounting portion, the first bottom surface facing portion facing the bottom surface of one of the pillars, and the first bottom surface facing portion.
Claims 1 to 4 further include a second bottom surface facing portion that faces the other bottom surface of the prism when the side surface portion contacts the first mounting portion and the second mounting portion. The tray for electronic components according to any one of the items. The tray for electronic components according to any one of claims 1 to 5, wherein a curved surface along the side surface is formed on the back side of the surface of the pin storage portion facing the pin storage space. A holding portion that holds other electronic components having another main body portion that is congruent with the main body portion,
The tray for electronic components according to claim 6, further comprising a connecting portion for fixing the holding portion to the first mounting portion, the second mounting portion, and the pin storage portion. In the holding portion, the electronic component is mounted on the first mounting portion and the second mounting portion in the axial direction of the other main body portion when the other electronic component is held by the holding portion. The tray for electronic components according to claim 7, which is formed so as to be different from the axial direction of the main body portion when it is placed.

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