KR200209784Y1 - Carrier tape groove structure of tantalum solid electrolyte capacitor - Google Patents

Abstract

The present invention relates to a carrier tape used to manufacture and store a tantalum solid electrolyte capacitor, and more particularly, a carrier of a tantalum solid electrolyte capacitor designed to check the characteristics of the tantalum solid electrolyte capacitor directly from the outside. It relates to a tape groove structure.

The present invention provides a carrier of a tantalum solid electrolyte capacitor that stores and transports a tantalum solid electrolyte capacitor by installing an electrode terminal in an inner mounting groove and sealing the lower case that stores the tantalum solid electrolyte capacitor in the mounting groove from the top to the upper case. In the tape, the upper case forms a plurality of inspection holes penetrating the upper side and through the inspection holes to closely contact the tantalum solid electrolyte capacitor seated in the mounting groove of the lower case to measure the characteristics of the tantalum solid electrolyte capacitor. A carrier tape groove structure of a tantalum solid electrolytic capacitor is provided.

Description

Carrier tape groove structure of tantalum solid electrolyte capacitor

The present invention relates to a carrier tape used to manufacture and store a tantalum solid electrolyte capacitor, and more particularly, a carrier of a tantalum solid electrolyte capacitor designed to check the characteristics of the tantalum solid electrolyte capacitor directly from the outside. It relates to a tape groove structure.

In general, tantalum solid-state electrolytic capacitors are stored after loading them into the grooves of the carrier tape when manufacturing is complete. The reason for storing tantalum solid electrolytic capacitors on the carrier tape is to serve as a case as a protection against external impact.

1 shows a conventional carrier tape, in which the carrier tape 2 has a rectangular box shape and is composed of an upper case 4 and a lower case 6.

The upper case 4 serves as a cover for covering the lower case 6, wherein the upper case 6 has a shape in which only a lower surface thereof is open and covers the upper case 4 on the lower case 6. It is formed into a structure that is sealed to.

The lower case 6 has a rectangular shape, and the lower case 6 has a seating groove 8 formed in an inner center thereof, and a center of the seating groove 8 penetrates into a lead hole in a circular hole shape. 10 is formed. The seating grooves 8 have respective electrode terminals 12 and 18 formed on both sides of the longitudinal direction, which are used when the tantalum solid electrolyte capacitor 14 is loaded therein and the characteristics of the tantalum solid electrolyte capacitor are measured. It is intended to be used.

In the method for measuring the characteristics of the tantalum solid electrolyte capacitor 14, the tantalum solid electrolyte capacitor 14 is loaded on the mounting groove 8 formed in the lower case 6 constituting the carrier tape 2. The test pin 16 is in close contact with the upper part of the upper case 4 to be measured.

When measuring the tantalum solid electrolyte capacitor after storing the tantalum solid electrolyte capacitor in the above-mentioned general carrier tape, the upper case is completely sealed with the lower case, and the upper case is lost (torn) when the test pin is in close contact with the upper case. There is a problem, thereby causing a loss of tantalum solid-state electrolytic capacitors.

In order to solve the above problems, an object of the present invention is to provide an inspection hole in the upper case constituting the carrier tape and to easily measure the characteristics of the tantalum solid electrolyte capacitor stored therein. It is to provide a tape hole structure.

In order to achieve the above object, the present invention, the lower case for installing the electrode terminal in the inner mounting groove and stores the tantalum solid electrolytic capacitor in the seating groove from the top to the upper case to store the tantalum solid electrolyte capacitor and In the carrier tape of the tantalum solid electrolyte capacitor to be transported, the upper case forms a plurality of inspection holes penetrating the upper side and the inspection pins are brought into close contact with the tantalum solid electrolyte capacitor seated in the mounting groove of the lower case. A carrier tape groove structure of a tantalum solid electrolyte capacitor is provided, which is configured to measure the characteristics of the tantalum solid electrolyte capacitor.

1 is a view showing a conventional carrier tape.

2 is a view showing a carrier tape of the present invention.

<Description of the code | symbol about the principal part of drawing>

30: carrier tape 34: upper case

38: inspection hole 40: lower case

44: seating groove 48: lead hole

50,60: electrode terminal 54: tantalum solid electrolytic capacitor

58: test pin

Hereinafter, with reference to the accompanying drawings illustrating a configuration according to a preferred embodiment of the present invention.

Figure 2 is a view showing a carrier tape of the present invention, the carrier tape 30 is formed in a cross-section of the rectangular box shape (rectangular shape), in particular the overall configuration of the carrier tape 30 is the upper case 34 and the lower case The structure is divided into two parts (40).

The upper case 34 serves as a cover for covering the lower case 40. The upper case 34 has a shape in which only a lower surface thereof is open and the upper case 34 has a respective short circuit (ie, a whole). And a test hole 38 for each part used in the case of embedding a tantalum solid electrolytic capacitor.

Like the upper case 34, the lower case 40 has a rectangular box shape, and the lower case 40 has a seating groove 44 formed at an inner center thereof, and a circular center with a fixed center penetrated therein. The lead hole 48 is formed in a hole shape.

In the seating grooves 44 of the lower case 40, the respective electrode terminals 50 and 60 are formed at both sides in the longitudinal direction, and the tantalum solid electrolyte capacitor 54 is loaded inside the tantalum solid electrolyte capacitor. It is intended to be used when measuring characteristics.

Referring to the operation state of the above-described configuration is as follows.

Method for measuring the characteristics of the tantalum solid electrolyte capacitor 54 stored therein using the carrier tape 30 of the present invention, that is, the carrier tape 30 is composed of an upper case 34 and a lower case 40 In particular, the upper case 34 forms an inspection hole 38 in each of the short circuits, and passes through the inspection pins 58 through the inspection holes 38 to the seating grooves 44 of the lower case 40. The characteristics of the seated tantalum solid electrolytic capacitor 54 can be checked.

In addition, due to the formation of the inspection hole 38 of the upper case 34 constituting the carrier tape 30 of the present invention, it is possible to suppress the damage of the upper case.

Referring to the effects of the present invention by the above-described configuration and operation in detail as follows.

The inspection hole is formed in the upper case constituting the carrier tape of the present invention, so when inspecting or checking the properties of the tantalum solid electrolyte capacitor, the inspection pin can be checked in close contact with the inspection pin. There is no damage to the carrier tape due to the work, and there is no damage to the carrier tape, and there is an effect that a factor of failure can be suppressed.

Claims (1)

In the carrier tape of the tantalum solid electrolyte capacitor which stores and transports the tantalum solid electrolyte capacitor by installing the electrode terminal in the inner mounting groove and sealing the lower case which stores the tantalum solid electrolyte capacitor in the mounting groove from the upper part to the upper case. The upper case 34 forms a plurality of inspection holes 38 penetrating the upper side, and tantalum seated on the seating grooves 44 of the lower case 40 through the inspection holes 38. A carrier tape groove structure of a tantalum solid electrolyte capacitor, which is configured to be in close contact with the solid electrolyte capacitor 54 so as to measure characteristics of the tantalum solid electrolyte capacitor.