JPWO2018189783A1 - Package - Google Patents

Abstract

Provided is a packaged product in the form of a tape, in which an article from which a wire extends is packaged, which can prevent the article from being deformed or broken. The package 1 is formed by packaging a plurality of articles 2 in a tape form. The article 2 has an article body 20 and a wire 21 extending from the article body 20. The package 1 is positioned between the main body storage portion 101 for storing the article main body 20, the wire storage portion 102 for storing the wire 21 spaced from the main body storage portion 101, the main body storage portion 101 and the wire rod storage portion 102. And a proximal end regulating portion 15 which regulates the position of the proximal end 21A of the wire 21. In the wire housing portion 102, a space that is at least wide in the width direction d2 of the article 2 with respect to the wire diameter of the wire 21 is provided.

Description

  The present invention relates to a package in which a plurality of articles are packaged. In particular, the present invention relates to a technology for packing an article in which a wire extends from a part.

  It is known to pack a semiconductor chip or the like in a tape form for convenience of storage, transportation, and the like. In Patent Document 1, semiconductor devices are accommodated in a plurality of rectangular recesses formed in a tape, respectively, and covered with a cover tape. The tape is typically formed of a resin material such as polystyrene or polyethylene terephthalate.

  Electrical components such as resistors and diodes may also be arranged and packaged in a tape-like form. In the case of an axial lead type having leads extending from the component body to both sides in the axial direction, the tip of one lead and the tip of the other lead are respectively supported by paper tape.

JP, 2005-116762, A

  Among components to be incorporated into a meter, an electrical product, etc., there are components which are extremely small and have very thin lead wires. In order to pack such extremely small parts with a resin tape, it is conceivable to form in the resin tape a rectangular recess that fits the entire size including the lead wires. However, there is a possibility that the lead wire may be deformed or the lead wire and the component body may be damaged by the movement of the component inside the recess due to vibration or impact during transportation.

  Because the rigidity of the thin lead wire of such extremely small parts is insufficient, if it is attempted to support the lead wire with paper tape as with electrical parts such as a diode, the lead wire may be deformed or damaged when the paper tape is attached . Even if the lead wire can be supported by the paper tape, there is a risk that the lead wire may be deformed or the lead wire and the part body may be damaged by movement of the component body to which the lead wire is connected due to vibration or shock during transportation. There is.

  As described above, the present invention is intended to provide a tape-like package in which an article in which a wire extends is packaged and which can prevent deformation and breakage of the article.

The package of the present invention is formed by packaging a plurality of articles in a tape form.
The article comprises an article body and a wire extending from the article body.
The package is located between the main body storage portion for storing the article main body, the wire storage portion spaced apart from the main body storage portion, and storing the wire rod, and the position of the base end portion of the wire And a proximal end regulation unit for regulating
The wire accommodating portion is provided with a space that is at least wide in the width direction of the article with respect to the wire diameter of the wire.

  In the package of the present invention, the wire preferably extends from both sides of the article body.

  In the package of the present invention, the proximal end regulating portion preferably surrounds the proximal end from both sides in the width direction.

  In the package of the present invention, the proximal end regulation portion preferably exhibits a V-shaped cross section which becomes deeper as approaching from both sides toward the axis set in the article along the direction in which the wire extends.

  In the package of the present invention, it is preferable to include a first tape in which a main body housing portion, a wire rod housing portion, and a proximal end regulating portion are formed, and a second tape covering the article main body and the wire rod.

  In the package of the present invention, it is preferable that the first tape and the second tape be joined between the articles housed in the main body housing portion and the wire rod housing portion and adjacent to each other.

In the package of the present invention, the proximal end regulating portion preferably has a bottom higher than the bottom of the main body housing.
In that case, it is preferable that the proximal end portion of the wire is supported by the proximal end regulating portion, and the article body is not in contact with the bottom portion of the main body storage portion.

  In the package of the present invention, it is preferable that a gap be present between the bottom of the wire housing portion and the wire.

In the package of the present invention, the article is preferably a temperature detection element that detects a temperature.
The present invention is suitable for packaging a thermistor element which is a temperature detection element.

In the package of the present invention, separately from the main body storage portion for storing the article main body, a wire storage portion provided with a wide space with respect to the wire diameter of the wire is prepared, and the main body storage portion and the wire storage A proximal end regulating portion for regulating the position of the proximal end portion of the wire is provided between the portion and the portion. Therefore, while being able to secure the space required for the work which handles an article at the time of packing or unpacking, around the wire at the time of handling at the time of packing or unpacking, and vibration or impact at the time of transportation Avoid interference with the wire and prevent deformation and breakage of the wire.
Even if vibration or impact is applied during transportation, the package body and the wire are individually accommodated in the respective accommodating portions, and the position of the proximal end of the wire is regulated by the proximal end regulating portion, so the package There is no excessive movement of articles inside the Even if the article moves a little, the wire storage part is wide, so that the article can be transported in a state of being stably stored in the main body storage part and the wire storage part while avoiding interference between the wire and surrounding members.

(A) is a top view of the tape-like package body which concerns on embodiment of this invention. (B) is an Ib-Ib line sectional view of (a). It is the elements on larger scale of Fig.1 (a). It is the III-III sectional view taken on the line of FIG. 1 (a). (A) is a figure which shows the whole of a thermistor element. (B) is the elements on larger scale of (a). (A)-(c) is a schematic diagram which shows the positional relationship of a proximal end control part and a lead wire. It is a figure which shows the state by which the package shown in FIG. 1 was wound by the reel.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
The package 1 of the present embodiment shown in FIGS. 1 to 3 is one in which the thermistor element 2 (a temperature detection element, an article) shown in FIG. 4 is packaged in a tape form.

[Thermistor element]
First, the configuration of a single unit of the thermistor element 2 to be packaged will be described.
The thermistor element 2 has an element body 20 (article body) and a pair of lead wires 21 and 21 (wires) extending from both sides of the element body 20, as shown in FIGS. 4 (a) and 4 (b). The lead wires 21 extend from opposite sides in the length direction d1 of the element body 20 in opposite directions.
The thermistor element 2 is a very small article, and the length of the element body 20 is, for example, less than 1 mm. The wire diameter of the lead wire 21 is, for example, about several tens of μm to 100 μm.

The direction in which the lead wires 21 and 21 linearly extend from the element body 20 is referred to as the length direction d1 of the thermistor element 2.
In the present embodiment, the element body 20 is located at the center of the length direction d1 of the thermistor element 2.

(Element body)
The element body 20 has a thermistor 201 and a cover glass 202 covering the thermistor 201 as shown in FIG.
Thermistor 201 is a semiconductor whose electric resistance changes significantly with temperature change. The thermistor 201 is formed in a rectangular plate shape. An electrode 203A is provided on one surface of the thermistor 201, and an electrode 203B is provided on the other surface of the thermistor 201.
The thermistor 201 can be made of, for example, a ceramic sintered using several types of transition metal oxides mainly composed of Mn, Ni, and Co as a raw material.

The cover glass 202 covers the whole of the thermistor 201 and a part of the lead wire 21 connected to the thermistor 201. The coated glass 202 is configured using amorphous glass or crystalline glass.
The cover glass 202 is formed in a substantially spherical shape that wraps the whole of the thermistor 201 and a part of the lead wires 21, 21. In the present embodiment, the dimension in the longitudinal direction d1 of the coated glass 202 is slightly longer than the dimension in the width direction d2 (radial direction) of the coated glass 202. The width direction d2 refers to a direction orthogonal to the length direction d1 in the in-plane direction of the package 1.
The coated glass 202 can be configured in an appropriate form such as an elliptical sphere or a cylindrical shape.

(Lead)
The lead wires 21 and 21 are connected to the thermistor 201 and drawn out to the outside of the coated glass 202 by a predetermined length. The root portion of the lead wire 21 exposed from the coated glass 202 is referred to as a base end 21 A of the lead wire 21.
The lead wires 21 are electrically connected to a circuit board (not shown). The temperature is measured based on the change in the resistance value of the thermistor 201 obtained through the lead wires 21.
It is assumed that the axis A (FIGS. 4B and 2) of the thermistor element 2 is set along the direction in which the lead wire 21 extends at the center of the thickness of the thermistor 201. The lead 21 connected to the electrode 203A ideally extends parallel to the axis A. The same applies to the lead wire 21 connected to the electrode 203B.

It is preferable that the lead wires 21 have a linear expansion coefficient equal to or close to that of the coated glass 202. From the viewpoint of the linear expansion coefficient, a wire made of platinum or a platinum alloy can be used as the lead wire 21 or a platinum clad wire can be used. The platinum clad wire is formed by rolling and bonding a coating of platinum on a core wire of an iron-nickel alloy having a linear expansion coefficient close to that of the coated glass 202. It is also possible to use a dumet wire in which a copper alloy film is rolled and joined to a core wire of an iron-nickel alloy.
Each lead 21 may be composed of a first lead having a linear expansion coefficient equal to or close to that of the coated glass 202, and a second lead connected to the first lead. In that case, the end of the first lead wire extended from the coated glass 202 and the end of the second lead wire are connected by welding or the like.

[Packing body]
Next, the configuration of the package 1 will be described.
As shown in FIG. 1A, the tape-like package 1 is formed by packaging a plurality of thermistor elements 2 arranged at a predetermined pitch P1 in the length direction DL of the package 1.
The package 1 includes a plurality of thermistor elements 2 and a first tape 11 and a second tape 12 for packaging the thermistor elements 2.

  In the package 1, the thermistor element 2 is disposed along the width direction DW orthogonal to the length direction DL. The length direction d1 of the packaged thermistor element 2 corresponds to the width direction DW of the package 1. The width direction d2 of the packaged thermistor element 2 corresponds to the length direction DL of the package 1.

  As shown in FIG. 1A and FIG. 2, the package 1 includes a plurality of storage chambers 10 for storing a plurality of thermistor elements 2 and a base 21 of lead wires 21 of the thermistor elements 2 stored in the storage chamber 10. A plurality of proximal end regulating portions 15 which regulate the positions of the end portions 21A are provided.

The storage chambers 10 are disposed at a constant pitch P1 in the length direction DL, and accommodate the plurality of thermistor elements 2 individually.
As shown in FIG. 2, each storage chamber 10 is provided with a main body storage portion 101 for storing the element main body 20 of the thermistor element 2 and a lead wire storage portion 102 (wire rod storage portion) for storing the lead wire 21. .

In order to accommodate the lead wires 21 and 21 extending from the element body 20 to both sides in the direction of the axis A, a pair of lead wire accommodating portions 102 and 102 are disposed on both sides of the main body accommodation portion 101 in the direction of the axis A. .
As shown in FIGS. 2 and 3, the main body housing portion 101 and the lead wire housing portion 102 are separated in the in-plane direction of the package 1. The proximal end regulating portion 15 is located between the main body accommodating portion 101 and the lead wire accommodating portion 102.

  The main body housing portion 101, the lead wire housing portion 102, and the proximal end regulating portion 15 are all formed on the first tape 11 made of resin. As shown in FIGS. 1B and 3, the main body housing portion 101, the lead wire housing portion 102, and the proximal end regulating portion 15 are molded on the first tape 11 using a mold or the like. The thickness of the first tape 11 is substantially uniform over the entire area of the first tape 11.

  The main body accommodation portion 101 and the lead wire accommodation portion 102 are recessed in the thickness direction from the flat portion 11A of the first tape 11 in which the main body accommodation portion 101 and the lead wire accommodation portion 102 are not formed. As shown in FIG. 3, the first tape 11 is easily transported to the single body or the package 1, and the package 1 is wound on the reel 4 (FIG. 6) with a uniform thickness. It is preferable that the back surface 101B and the back surface 102B located on the back side of the lead wire accommodating portion 102 be located on the same plane.

(Main unit storage unit)
The main body housing portion 101 has an inner wall (bottom portion 101A and side wall 101C) surrounding the element main body 20, and opens toward the surface side of the first tape 11. As shown in FIG. 3, it is preferable that the element body 20 not be in contact with the bottom portion 101A.
As shown in FIG. 2, the main body housing portion 101 is formed in a substantially elliptical shape in a plan view so as to surround the element main body 20 over the entire circumference. The dimensions and the shape of the main body accommodating portion 101 are appropriately set so that the element main body 20 can be surely fitted while allowing errors in the shape and the size of the element main body 20.
The shape and dimensions of the main body housing portion 101 can be determined as appropriate. For example, the main body storage portion 101 can be formed in a rectangular shape in plan view.
Since the element body 20 is surrounded by the side wall 101C, the displacement of the thermistor element 2 in the length direction d1 and the width direction d2 is restricted.

(Lead wire housing)
As shown in FIGS. 2 and 3, the lead wire accommodating portion 102 has a rectangular bottom portion 102A facing the lead wire 21 and a side wall 102C rising from the periphery of the bottom portion 102A. The lead wire accommodating portion 102 is also opened toward the surface side of the first tape 11 similarly to the main body accommodating portion 101.
The lead wire accommodating portion 102 encloses a rectangular box-shaped space in plan view. The dimension in the length direction d1 of the lead wire accommodation portion 102 is appropriately set so that the lead wire 21 can be accommodated up to the tip end portion 21B while allowing the dimensional error of the lead wire 21.

In the lead wire accommodating portion 102, a space sufficiently wide in the width direction d2 with respect to the wire diameter of the lead wire 21 is provided.
The lead wire accommodating portion 102 is not limited to a rectangular shape, but can be formed into an arbitrary shape as long as a space wide at least in the width direction d2 with respect to the wire diameter of the lead wire 21 is provided.

  Further, in the lead wire accommodating portion 102, a space sufficiently wide relative to the wire diameter of the lead wire 21 is provided also in the thickness direction of the package 1. As shown in FIG. 3, between the bottom portion 102A of the lead wire accommodating portion 102 and the lead wire 21 extending substantially along the in-plane direction of the package 1 from the element body 20, the wire diameter is equal to or larger than the wire diameter of the lead wire 21. There is a gap 103. Further, a gap 104 also exists between the lead wire 21 and the second tape 12.

(Base end regulation department)
As shown in FIG. 1 (b), FIG. 2 and FIG. 3, the proximal end restricting portion 15 has a shallow depth from the flat portion 11 A of the first tape 11 compared to the main body accommodation portion 101 and the lead wire accommodation portion 102. Are formed on the surface side of the first tape 11. The internal space of the main body accommodating portion 101 and the internal space of the lead wire accommodating portion 102 communicate with each other through a groove formed by the proximal end regulating portion 15.

As shown in FIG. 2, the proximal end regulating portion 15 extends from the proximal end portion 21A of the lead wire 21 which extends between the main body housing portion 101 and the lead wire housing portion 102 and is exposed on the surface of the covering glass 202. The position of the predetermined section to the vicinity is regulated.
The proximal end regulating portion 15 regulates the position of the proximal end 21A by surrounding the proximal end 21A of the lead wire 21 from both sides in the width direction d2 along the length direction d1. The proximal end regulating portion 15 also regulates rotation of the thermistor element 2 in the in-plane direction of the package 1 around the element body 20.
"Regulation" of the position of the proximal end 21A by the proximal end regulating portion 15 includes supporting the proximal end 21A. As shown in FIG. 3, the proximal end regulating portion 15 supports the proximal end 21A from below.

When the proximal end restricting portion 15 extends to a position far from the element body 20, the rotation of the thermistor element 2 in the in-plane direction of the package 1 is restricted, and the effect of holding the lead wire 21 in a straight shape is high. However, when the proximal end regulating portion 15 is too long, it is difficult to enter the proximal end regulating portion 15 when the lead wire 21 is deformed.
The length 15 L of the proximal end regulating portion 15 can be set to an appropriate dimension in consideration of the ease with which the lead wire 21 is accommodated in the proximal end regulating portion 15. The length 15L is, for example, 1 to 2 times the length of the element body 20.

The proximal end regulating portion 15 is formed to have a width equivalent to that of the main body housing portion 101 in the present embodiment with the axis A as a center. The proximal end regulating portion 15 and the accommodation chamber 10 are formed in line symmetry with respect to the axis A of the thermistor element 2.
The proximal end regulating portion 15 can also be formed narrower or wider than the width of the main body housing portion 101.
As shown in FIG. 1 (b), the proximal end regulating portion 15 preferably exhibits a V-shaped cross section. The proximal end restricting portion 15 forms a groove having a V-shaped cross section so as to become deeper from both sides of the axis A toward the axis A (FIG. 2) of the thermistor element 2. The proximal end regulating portion 15 supports the lead wire 21 at least at a part thereof. Since the bottom portion 15A of the proximal end regulating portion 15 is at a position higher than the bottom portion 101A of the main body housing portion 101, the element body 20 is the bottom portion of the main body housing portion 101 when the lead wire 21 is supported by the proximal end regulatory portion It is kept away from 101A.
When the proximal end 21A of each of the pair of lead wires 21 and 21 is supported by the proximal end regulating portion 15, the entire thermistor element 2 including the element body 20 is stably supported.
The position of the bottom portion 15A of the base end regulating portion 15 corresponding to the vertex of the V shape corresponding to the axis A is the bottom portion 101A of the main body housing portion 101 and the lead wire housing portion 102 as shown in FIG. Higher than the position of the bottom 102A of the

5A to 5C show a part of the pair of lead wires 21 in the longitudinal direction.
The thermistor element 2 is disposed substantially in parallel to the in-plane direction of the tapes 11 and 12, but the lead wire 21 is vertically inclined with respect to the axis A or the lead wire 21 is not straight in shape or assembly tolerance. I am slightly bent. Further, the posture of the thermistor element 2 is not necessarily the state shown in FIG. 2, and can rotate around the axis A from the state shown in FIG.
The mode in which the proximal end 21A of the lead wire 21 is restricted by the proximal end restricting part 15 differs according to the state of the lead wire 21 and the state of deformation (FIGS. 5A to 5C).

For example, as shown in FIG. 5A, the base end 21A of one lead wire 21 contacts the surface of the base end regulating portion 15 at the position of the bottom 15A, and the base end 21A of the other lead wire 21 It may float away from the surface of the proximal end regulating portion 15.
Alternatively, as shown in FIG. 5B, the base end 21A of one lead wire 21 contacts the bottom 15A, and the base end 21A of the other lead wire 21 contacts the wall 15B of the base end regulating portion 15. May be.
Furthermore, as shown in FIG. 5C, the base end 21A of one lead wire 21 contacts the wall 15B, and the base end 21A of the other lead wire 21 is on the wall 15C forming a V shape with the wall 15B. It may be in contact.

The examples shown in FIGS. 5A to 5C are merely examples. When the lead wire 21 is inclined or bent with respect to the axis A, for example, a section of the base end 21A is a bottom 15A of the base end regulating portion 15 as shown in the left view of FIG. In the other section of the proximal end 21A, it may float without contacting as shown in the right figure of FIG. 5 (a).
Here, as shown in the right figure of FIG. 5A, even if the proximal end 21A is not in contact with the proximal end regulating portion 15, the proximal end 21A is surrounded by the inner wall of the proximal end regulating portion 15. Therefore, the position of the proximal end 21A is regulated to the inside of the proximal regulation portion 15. Note that the second tape 12 (FIG. 1B) not shown in FIG. 5 is provided on the first tape 11 so that the proximal end 21A is located inside the proximal restriction portion 15 and the second tape 12. It will be held. The proximal end 21A can also contact the second tape 12.
As an example is shown in FIGS. 5 (a) to 5 (c), the thermistor element 2 can be accommodated in the storage chamber 10 without any problem, regardless of the restriction form.
Further, regardless of any restriction form, the element body 20 can be protected from impact, and there is no problem in restricting the position of the lead wire 21 at the time of pickup by an automatic machine.

  The thermistor element 2 accommodated in the accommodating chamber 10 is covered with a second tape 12 made of resin as shown in FIG. 1 (a) and FIG. The first tape 11 and the second tape 12 are joined so as not to be separated at an appropriate position of the flat portion 11A of the first tape 11. The thermistor element 2 is enclosed between the first tape 11 and the second tape 12. The first tape 11 and the second tape 12 correspond to a packaging material for packaging the thermistor element 2.

At one end side of the first tape 11 in the width direction DW, a plurality of circular holes 109 usable for positioning at the time of manufacturing of the package 1 or when taking out the thermistor element 2 from the package 1, etc. Are aligned at a constant pitch along the.
The position of the end 11B of the first tape 11 and the position of the end 12B of the second tape 12 at the other end of the width direction DW substantially coincide with each other.

  The first tape 11 and the second tape 12 are welded by heat and pressure at an appropriate position excluding the storage chamber 10 (heat seal). The welded position is shown in a hatched pattern in FIG. 1 (a). The first tape 11 and the second tape 12 are welded in a line along the length direction DL at the positions S1 and S2 on both sides in the width direction DW of the region where the storage chamber 10 is disposed, thereby the first tape Thermistor element 2 is enclosed between 11 and the second tape 12. In the present embodiment, the first tape 11 and the second tape 12 are welded also at the position S3 between adjacent ones of the thermistor elements 2 stored in the storage chamber 10.

For welding, both the first tape 11 and the second tape 12 are formed using a thermoplastic resin material. As a material of the first tape 11 and the second tape 12, for example, polystyrene, polyethylene terephthalate or the like can be used. The material used for the first tape 11 and the material used for the second tape 12 may be the same or different.
The first tape 11 is thicker than the second tape 12. The second tape 12 is more flexible than the first tape 11. The thickness of the first tape 11 is, for example, about 0.3 to 0.5 mm. The thickness of the second tape 12 is, for example, about several tens to 100 μm. When the package 1 is taken up by the reel 4 as shown in FIG. 6, in order to prevent the second tape 12 from being wrinkled, it is preferable to wind the package 1 with the second tape 12 directed to the outer peripheral side. preferable.

  Hereinafter, the operation of the package 1 at the time of manufacture (at the time of packing), at the time of transportation, and at the time of unpacking will be described.

<Packing>
The package 1 can be manufactured, for example, according to the following procedure.
While conveying the first tape 11 in the length direction DL, the thermistor element 2 is accommodated in the respective concave portions (the main body accommodation portion 101 and the lead wire accommodation portion 102) of the first tape 11. At that time, the thermistor element 2 is held in a posture along the width direction DW of the first tape 11 while the element body 20 is adsorbed by the nozzle of the chuck device using the decompressed air. Further, in the state where the element main body 20 is positioned with respect to the main body housing portion 101, the suction of the element main body 20 is released.

  At this time, since the position of the proximal end 21A of the lead wire 21 is regulated by the proximal end regulating portion 15, even if the lead wire 21 is bent within the non-defective range with respect to the axis A, the lead wire 21 is It can be regulated to the shape along A. In particular, since the proximal end portion 21A of the lead wire 21 is guided toward the bottom portion 15A by forming the proximal end regulating portion 15 in a V-shaped cross section, the lead wire 21 has a shape along the axis A It can be regulated surely.

  Moreover, even if the lead wire 21 is bent with respect to the axis A, the lead wire 21 is the flat portion 11A of the first tape 11 because the lead wire accommodating portion 102 is sufficiently wider than the wire diameter of the lead wire 21. And does not interfere with the side wall 102C or the bottom portion 102A of the lead wire housing portion 102. Therefore, the thermistor element 2 can be reliably housed in the housing chamber 10. In addition, when the lead wire 21 is grasped and the thermistor element 2 is accommodated in the accommodation chamber 10, the grasping member of the automatic machine does not interfere with the side wall 102C or the bottom portion 102A.

Next, the second tape 12 is superposed on the first tape 11, and heat and pressure are applied to weld them. The package 1 manufactured through the above procedure can be wound around the reel 4 (FIG. 6).
As described above, the lead wire 21 is accommodated in the lead wire accommodating portion 102 which is wider than the wire diameter, and the position of the proximal end 21A of the lead wire 21 is regulated by the proximal end regulating portion 15 Thus, the thermistor element 2 can be packaged while avoiding deformation or breakage of the lead wire 21 due to interference.

<Transportation>
The tape-like package 1 is packaged and transported. Even if vibration or shock is applied to the package 1 during transportation, the element body 20 is encased in the inner wall (the bottom 101A and the side wall 101C) of the main body housing portion 101. Can be restrained from moving in the length direction d1 or the width direction d2.
In addition, since the base end portion 21A of the lead wire 21 is sandwiched from both sides in the width direction by the base end regulating portion 15, the thermistor element 2 moves in the in-plane rotation direction of the package 1 around the element body 20. Can be reduced.

Furthermore, since the thermistor element 2 is sealed between the first tape 11 and the second tape 12, movement of the thermistor element 2 in the thickness direction of the package 1 can also be suppressed.
Further, since the first tape 11 and the second tape 12 are welded at a position S3 between adjacent ones of the storage chamber 10, the thermistor element 2 is a flat portion 11A of the first tape 11 and the second tape 12 It is also possible to suppress movement to the next storage chamber 10 through the gap between the rear surface and the rear surface.
Since the lead wire accommodating portion 102 is widely secured to the wire diameter of the lead wire 21, even if the lead wire 21 shakes due to vibration or the like during transportation, the lead wire 21 interferes with the bottom portion 102A, the side wall 102C, etc. Can be avoided.

As described above, movement of the thermistor element 2 inside the package 1 can be suppressed even if vibration or shock is received during transportation. Since the thermistor element 2 does not move excessively inside the package 1, the thermistor may be such that the lead wire 21 interferes with the first tape 11 or the second tape 12 or the lead wire 21 is accommodated in the adjacent storage chamber 10 Interference with the lead 21 of the element 2 can be avoided.
For example, it is possible to prevent the lead 21 from swinging in the width direction d2 and causing the tip 21B of the lead 21 to interfere with the side wall 102C. Therefore, the lead 21 may be deformed or the proximal end 21A may be damaged by the interference. Can be prevented.
According to the package 1 of the present embodiment, it is possible to prevent the deformation and damage of the thermistor element 2 while maintaining the posture of the thermistor element 2 inside the individual storage chambers 10.

<When unpacking>
The package 1 is unpacked by, for example, an automatic assembly machine, and the thermistor element 2 taken out of the package 1 is assembled to a component such as equipment. In that case, while transporting the package 1 in the length direction DL by an automatic assembly machine, the second tape 12 is peeled off from the first tape 11, and for example, suction of the element body 20 or lead wire 21 from the storage chamber 10. The thermistor element 2 is taken out and held by a method such as holding. Even if the pick-up method for gripping the lead wire 21 is adopted, the lead wire accommodating portion 102 is sufficiently wide relative to the wire diameter of the lead wire 21. Does not interfere with 102A. Since the thermistor elements 2 are individually accommodated in the accommodation chamber 10, the thermistor elements 2 can be accurately counted.
Here, even if vibration or shock is received during transportation, the position of the base end 21A is regulated by the base end regulating portion 15, so that the variation in the attitude of the lead 21 is small, and the shape of the lead 21 is also deformed I did not. Therefore, the thermistor element 2 can be reliably gripped by the automatic assembly machine.
Furthermore, since there is a wide space around the lead wire 21 accommodated in the lead wire accommodation portion 102, the lead wire 21 is gripped and formed into a predetermined shape, or the lead wire 21 for soldering. The work such as preheating can be performed easily and reliably.
When the thermistor element 2 is picked up from the storage chamber 10 by an automatic machine, various methods can be used regardless of the pickup method.

  As mentioned above, according to the package 1 provided with the lead wire accommodating part 102 and the proximal end regulation part 15, the lead at the time of packing, transport, and unpacking while securing the workability at the time of packing or unpacking It is possible to prevent deformation and breakage of the wire 21.

  The dimension in the width direction d2 of the lead wire accommodating portion 102 is appropriately determined in consideration of the space necessary for carrying out the work at the time of packing and unpacking, the pitch P1 of the accommodation chamber 10 considering supply to the automatic machine, It can be set to The dimensions of the lead wire housing portion 102 in the present embodiment are merely an example. It is also possible to narrow the dimension in the width direction d2 of the lead wire housing portion 102 and the pitch P1 of the housing chambers 10 to increase the number of thermistor elements 2 that can be housed per unit length of the tapes 11 and 12.

In addition to the above, the configurations described in the above embodiment can be selected or changed to other configurations as appropriate without departing from the spirit of the present invention.
The package of the present invention can also be applied to an article in which the lead wires 21 extend from only one side of the element body 20.

  The gap 103 (FIG. 3) between the bottom portion 102A of the lead wire housing portion 102 and the lead wire 21 may not be present. That is, the lead wire 21 may be in contact with the bottom portion 102A. Also in this case, the internal space of the lead wire accommodating portion 102 is widely secured in the width direction d2 with respect to the wire diameter of the lead wire 21. Therefore, the thermistor element 2 can be handled easily at the time of packing and unpacking. It is possible to prevent the lead wire 21 from being deformed or broken due to the interference with the surrounding wall surface.

  The proximal end regulating portion in the present invention may have an appropriate shape as long as the position of the proximal end 21A of the lead wire 21 is regulated. For example, the proximal end regulating portion can be formed into a shape exhibiting a U-shaped cross section.

  In the package of the present invention, a portion for restricting the position of the tip portion 21B of the lead wire 21 can be formed inside or outside of the lead wire accommodating portion 102 as necessary.

  The package of the present invention may not necessarily have the second tape 12. When the package of the present invention includes only the first tape 11, the first tape 11 is wound on the reel 4, so that the articles contained in the first tape 11 are wound thereon. It will be covered by the back of 1 tape 11.

The present invention can be applied to packaging of a temperature detecting element such as a platinum temperature measuring body or a thermocouple other than the thermistor element 2. In addition to the temperature detection element, the present invention can be widely used for packing an article in which a wire extends from an article body. The present invention is particularly useful for packaging an article having a small diameter lead wire 21 into a tape form, as it is difficult to perform typical taping treatment on the lead wire 21.
The package of the present invention can also be applied to a larger-scaled article in terms of wire diameter, total length, and the like than the thermistor element 2 disclosed in the above embodiment. The wire provided in the article may have a cross section other than a circle, such as a rectangular cross section, such as a lead frame.

1 Package 2 Thermistor element (article)
DESCRIPTION OF SYMBOLS 4 reel 10 accommodation chamber 11 1st tape 11A flat surface part 11B edge 12 2nd tape 12B edge 15 base end regulation part 15A bottom part 15B, 15C Wall 20 element main body (article main body)
21 Lead wire (wire)
21A base end 21B tip 101 main body housing 101A bottom 101B back 101C side wall 102 lead wire housing (wire housing)
102A Bottom part 102B Back surface 102C Side wall 103, 104 Gap 109 Hole 201 Thermister 202 Covering glass 203A, 203B Electrode A Axis d1 Length direction d2 Width direction DL Length direction DW Width direction P1 Pitch S1, S2, S3 position

The present invention is a package formed by packing a plurality of elements having a pair of wires extending in opposite directions from an element body, wherein the package is formed wider than the tip portion of the pair of wires, and the elements are separated on one side. A first tape provided with a plurality of concave-shaped accommodating portions for accommodating in a plurality of spaces as mutually independent spaces, and a second tape disposed opposite to one surface of the first tape; Each housing portion formed on one side has a main body housing portion for housing the element main body and a wire rod housing portion for housing a wire rod formed wider than the wire diameter of the wire rod, and the main body housing portion and the wire rod housing It is provided with a width different from that of the wire housing portion and is formed extending from the main body housing portion in the width direction of the first tape, and receives the base end portion of the wire and regulates the position of the base end portion. Control the displacement of the element in the in-plane direction of the first tape by A groove-shaped base end regulating portion for the wire to keep the state of being stretched that, characterized in that it comprises a.
It is preferable that the wire accommodating portion in the present invention is formed wider than the width of the proximal end regulating portion.
The package of the present invention is formed by packaging a plurality of elements in the form of a tape.
The element has an element body and a wire extending from the element body.
The package is located between the main body accommodating portion for accommodating the element main body, the wire accommodating portion spaced apart from the main body accommodating portion, and accommodating the wire rod, and the position of the base end portion of the wire and a base end regulating portion for regulating the.

In the package of the present invention, wires extend from both sides of the element body .

In the package of the present invention, the proximal end regulating portion preferably regulates the proximal end portion inward in the width direction.

In the package of the present invention, the proximal end regulating portion preferably exhibits a V-shaped cross section which becomes deeper from both sides toward the axis set in the element along the direction in which the wire extends.

Package of the present invention is provided with the first tape, and a second tape.

In the package of the present invention, it is preferable that the first tape and the second tape be joined between the adjacent accommodating portions .
In the package of the present invention, it is preferable that the first tape and the second tape be joined along the length direction on both sides of the housing portion in the width direction of the first tape and the second tape.

In the package of the present invention, the proximal end regulating portion preferably has a bottom higher than the bottom of the main body housing.
In that case, it is preferable that the proximal end portion of the wire is supported by the proximal end regulating portion, and the element body is not in contact with the bottom portion of the main body housing portion.

In the package of the present invention, the element is preferably a temperature detection element that detects a temperature.
The present invention is suitable for packaging a thermistor element which is a temperature detection element.

The present invention is a package formed by packaging a plurality of elements having a pair of linearly extending wires in the reverse direction from the element body and applied to an automatic machine, wherein the packages are disposed to face each other A main body housing portion comprising a first tape and a second tape, the first tape including a concave portion recessed from the surface of the first tape in the same shape as the element main body, and a main body housing portion for restricting movement of the element; The position of the proximal end of the wire is regulated so that the pair of wires are linearly arranged in the short direction of the first tape and the second tape when the element body is housed continuously in the main body housing portion. While restricting the movement of the element in the in-plane direction of the first tape and the second tape, a proximal end regulating portion having an opening wider than the wire in the longitudinal direction of the first tape and the second tape; Is continuously formed on the part and is longer than the proximal end regulation part A plurality of element accommodating portions each having a wide width and a rectangular wire receiving portion having a deeper groove than the proximal end regulating portion are provided at predetermined intervals in the longitudinal direction and are individually provided corresponding to the plurality of elements. It is characterized by
It is preferable that the wire accommodating portion in the present invention is formed wider than the width of the proximal end regulating portion.
The package of the present invention is formed by packaging a plurality of elements in the form of a tape.
The element has an element body and a wire extending from the element body.
The package is located between the main body accommodating portion for accommodating the element main body, the wire accommodating portion spaced apart from the main body accommodating portion, and accommodating the wire rod, and the position of the base end portion of the wire And a proximal end regulation unit for regulating

In the package of the present invention, it is preferable that the first tape and the second tape be joined between the adjacent element housing portions.
In the package of the present invention, it is preferable that the first tape and the second tape be joined along the length direction on both sides of the housing portion in the short direction of the first tape and the second tape.

Claims (10)

A package comprising a plurality of articles packaged in a tape form,
The article comprises an article body and a wire extending from the article body,
The package is
A main body accommodating portion for accommodating the article main body;
A wire rod accommodating portion which is separated from the main body accommodating portion and accommodates the wire rod;
And a proximal end regulating portion positioned between the main body housing portion and the wire rod housing portion to regulate the position of the proximal end portion of the wire rod,
The wire housing portion is provided with a space that is at least wide in the width direction of the article with respect to the wire diameter of the wire.
Package characterized by. The wire extends from both sides of the article body,
The package according to claim 1. The proximal end regulating portion surrounds the proximal end from both sides in the width direction.
The package body of Claim 1 or 2. The proximal end regulation unit
It exhibits a V-shaped cross section which becomes deeper toward the axis set in the article along the direction in which the wire extends and approaches from both sides.
The package body of Claim 3. A first tape on which the main body housing portion, the wire rod housing portion, and the proximal end regulation portion are formed;
And a second tape covering the article body and the wire.
The package body as described in any one of Claims 1-4. The first tape and the second tape are joined between the articles accommodated in and adjacent to the main body accommodation portion and the wire rod accommodation portion.
The packaging body of Claim 5. The proximal end regulation portion has a bottom higher than the bottom of the main body housing.
The package according to any one of claims 1 to 6. The proximal end portion of the wire is supported by the proximal end regulating portion,
The article body is not in contact with the bottom portion of the body storage portion.
The package according to claim 7. There is a gap between the bottom of the wire housing portion and the wire.
The package according to any one of claims 1 to 8. The article is a temperature detection element that detects a temperature.
The package body as described in any one of Claims 1-9.

Images