KR200317235Y1 - Structure for mounting terminal of battery for mobile phone - Google Patents

Abstract

The present invention relates to a battery terminal installation structure of a mobile phone, the battery cell 10 is a current generated, and the battery cell 10 is built-in, the upper and lower cases (20, 30), which form the appearance of the battery, the above In the battery for a mobile phone consisting of a terminal portion which is connected to the battery cell 10 via the nickel substrate 40 and exposed to the outside of the case 20, 30, the nickel substrate 40 connected to the battery cell 10. The upper and lower contact terminals 51 and 52 which are exposed to the outside through the terminal holes 21 and 31 of the upper and lower cases 20 and 30, respectively, are integrally formed on the lower left and right sides of the upper and lower cases 20 and 30, respectively. The mold 60 is sandwiched between the 51 and 52 to support the upper and lower contact terminals 51 and 52, and the cases 20 and 30 are combined to simplify the manufacturing process. It can reduce the labor and cost of manufacturing, and can prevent assembly defects or damages due to soldering work between the board and the terminal. Rather, it is possible to minimize the battery in line with the current trend of miniaturization of mobile phones, thereby improving competitiveness for other companies.

Description

Structure for mounting terminal of battery for mobile phone

The present invention relates to a battery used in a mobile phone, and more particularly to a mounting structure of the terminal is installed in the battery enclosure.

Due to the development of the telecommunications industry, the modern society has developed and spread a lot of mobile phones that can be used regardless of the place and time, and the user always takes out the above-mentioned mobile phone so that they can always carry it near the body such as a clothes bag. do.

Such a mobile phone is composed of a main body in which various circuit boards for communication are embedded, and a battery for supplying power to the rear of the main body.

Unlike mobile phones, which are always powered, the mobile phone is completely dependent on the battery, and the battery is the most important component that determines the call quality and the talk time of the mobile phone.

This battery, as shown in Figure 3, the battery cell 101 is a current is generated, the cell 101 is built-in, the upper and lower cases 102, 103 that forms the appearance of the battery in the battery cell 101 It is composed of a terminal portion that is connected via the nickel substrate 104 and exposed to the outside of the case (102.103).

In this case, the terminal unit is for transmitting the current of the battery cell 101 to the mobile phone body, the contact terminal 106 is attached to the mold 105 is fixed to the upper case 102 of the battery, this contact terminal The contact surface 106 is positioned on the upper and lower surfaces of the mold 105, and the contact terminals 106 are connected to the nickel substrate 104 in which the lead wires are extended to contact the battery cell 191 by soldering.

However, the conventional terminal structure has a problem in that the assembly and workability are deteriorated as the mobile phone or the battery is miniaturized as in the present invention since the mold and the contact terminal are inserted into the insert to form the same structure.

In the conventional terminal, the nickel substrate and the lead wire of the terminal part are connected by soldering, and then the mold of the terminal part is fixed to the upper case of the battery and finally the upper case and the lower case are adhesively fixed by ultrasonic bar. There is a problem that the process is complicated, and the case of assembling the case has a high possibility of deformation occurs in the terminal and the blanch rate increases.

In other words, in the process of assembling the upper case and the lower case, not only the terminal and the nickel substrate or the terminal itself are deformed and assembled, but also in the case assembling process, such defects cannot be checked, so the battery is checked after the final assembly. It is impossible to prevent the bourbon beforehand.

The present invention has been made to solve the above problems, the terminal is formed on the nickel substrate integrally, and the battery terminal mounting structure of the mobile phone that can be easily assembled by assembling the mold portion for supporting the terminal to the terminal assembly The purpose is to provide.

The present invention for achieving the object as described above, the battery cell and the nickel substrate to be assembled in the upper case of the battery assembly, but the left and right sides of the nickel substrate is exposed to the outside through the terminal holes of the upper and lower cases, respectively The terminal is integrally formed, and a mold is sandwiched between the upper and lower contact terminals to support the upper and lower contact terminals, and then the case is joined.

With the above structure, the soldering process between the nickel substrate and the contact terminal is omitted, and there is no need to separately provide the contact terminal, thereby simplifying the manufacturing process.

1 is an exploded perspective view illustrating a battery terminal installation structure according to the present invention;

2 is a cross-sectional view showing a battery installed in accordance with the present invention,

3 is an exploded perspective view illustrating a terminal installation structure of a mobile phone battery according to the prior art.

Explanation of symbols on the main parts of the drawings

10: battery cell 20: upper case

21: hole 30: lower case

31: hole 40: nickel substrate

51: upper contact terminal 52: lower contact terminal

60: mold 70: rib

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing a battery terminal installation structure according to the present invention, Figure 2 is a cross-sectional view showing a battery in a state installed in accordance with the present invention.

According to the above drawings, the battery of the mobile phone includes a battery cell 10 in which a current is generated, and the battery cell 10 is built-in, and the upper and lower cases 20 and 30 forming the external shape of the battery, and the battery cell ( 10) is connected to the nickel substrate 40 via a terminal consisting of a terminal portion exposed to the outside of the case (20,30).

In the present invention, in the battery having the above-described structure, the terminal portion is formed in accordance with the nickel substrate 40, that is, the battery cell 10 and the nickel substrate 40 embedded in the upper case 20 of the battery. The upper and lower contact terminals 51 and 52, which are exposed to the outside through the terminal holes 21 and 31 of the upper and lower cases 20 and 30, are integrally formed on the lower left and right sides of the nickel substrate 40, respectively. The upper and lower contact terminals 51 and 52 are supported between the upper and lower contact terminals 51 and 52 to support the upper and lower contact terminals 51 and 52, and the cases 20 and 30 are molded together.

Here, a rib 70 is formed in the side surface of the hole 21 of the upper case 20 to prevent the mold 60 from being separated so that the mold 60 is seated between the ribs 70 and fixed. It becomes the structure that becomes.

With the above structure, the soldering process between the nickel substrate 40 and the contact terminals 51 and 52 is omitted, and the contact terminals 51 and 52 do not need to be separately provided, thereby simplifying the manufacturing process. .

Here, the contact terminals 51 and 52 formed on the nickel substrate 40 are formed with thin ribs on the left and right sides of the nickel substrate 40, respectively, and the holes formed in the upper and lower cases 20 and 30 of the battery ( The ribs are partially bent upwards and some are bent downwards so as to be exposed to the outside through 21 and 31 to form an upper contact terminal 51 and a lower contact terminal 52, and each of the terminals 51 and 52 The tip has a structure bent inward.

Therefore, when the mold 60 manufactured to match the size of the terminals 51 and 52 is inserted between the upper and lower contact terminals 51 and 52, the upper and lower terminals 51 and 52 are molded into the mold 60. It is fixed and supported by, so that the terminals (51, 52) are not bent by the external force applied to the terminals (51, 52) outside the case (20, 30).

In this case, the mold 60 is fitted into the inner surfaces of the bent contact terminals 51 and 52 so as not to be separated from the terminal.

Looking at the process of assembling the battery of this structure, first assembled the nickel substrate 40, the contact terminals 51, 52 are integrally formed in the battery cell 10 placed inside the upper case 51.

After the assembly of the nickel substrate 40 is completed, the mold 60 is inserted between the upper and lower contact terminals 51 and 52 formed integrally with the nickel substrate 40. The upper and lower contact terminals When the mold 60 is inserted at the sides of the 51 and 52, the upper and lower ends of the mold 60 are fitted to coincide with the upper and lower contact terminals 51 and 52, respectively, and the side is the upper case 20. It is sandwiched between the ribs 70 formed in the) and is securely fixed.

In this state, when the lower case 30 is covered with the upper case 20 and ultrasonically molded, the battery is assembled and the contact terminals 51 and 52 integrally formed on the nickel substrate 40 are upper and lower. It is exposed to the outside through each of the holes 21 and 31 formed in the lower cases 20 and 30, and the terminals 51 and 52 are supported by the inner mold 60.

As such, the soldering process between the nickel substrate 40 and the contact terminals 51 and 52 is omitted, and the contact terminals 51 and 52 do not need to be separately provided, thereby simplifying the manufacturing process.

As described above, according to the battery terminal installation structure of the mobile phone according to the present invention, the manufacturing process can be simplified to reduce the labor and cost of manufacturing, and to prevent assembly defects or damage due to soldering work between the board and the terminal. In addition, it is possible to minimize the battery in line with the current trend of miniaturization of mobile phones, thereby improving competitiveness for other companies.

Claims (2)

The battery cell 10 in which the current is generated and the battery cell 10 are built-in, and the upper and lower cases 20 and 30 forming the external shape of the battery, and the nickel substrate 40 are connected to the battery cell 10. In the battery for a mobile phone consisting of a terminal connected to the outside of the case (20,30), Upper and lower contact terminals 51, which are exposed to the outside through the terminal holes 21 and 31 of the upper and lower cases 20 and 30, respectively, on the lower left and right sides of the nickel substrate 40 connected to the battery cell 10; 52) are integrally formed, and the upper and lower contact terminals 51 and 52 are supported between the upper and lower contact terminals 51 and 52 to support the upper and lower contact terminals 51 and 52, and then the cases 20 and 30 are joined together. Battery terminal mounting structure of a mobile phone, characterized in that the structure. According to claim 1, Rib 70 is formed in the side of the hole 21 of the upper case 20 to prevent the mold 60 is separated so that the mold 60 is the rib 70 Battery terminal mounting structure of the mobile phone, characterized in that the seating is fixed between.