JPH03250560A - Battery mounting method - Google Patents

Abstract

PURPOSE:To shorten the production processes by accommodating a circuit board, on which a battery is mounted, in a casing, and thereby accomplishing electrical connection of the connection line leading from the battery to a circuit or circuits concerned. CONSTITUTION:A circuit 11 and a battery 12 for driving it are mounted on a circuit board 10. The grounding lines 14a, 14b for connection of the circuit 11 with battery 12 are connected with respective terminals 15, 16, while the connection line leading from the circuit 11 to battery 12 is put in open state. After a continuity test is made for the circuit 11, the base board 10 is installed in a casing 20 fitted with terminals 22, 23 which are in contact with the mentioned terminals 15, 16, to accomplish electrical connection of the circuit 11 with battery 12. It is also recommended to perform mounting in the condition that part of the power supply line 13 for connecting the positive electrode of the battery 12 to the circuit 11 is disconnected electrically.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a method for mounting a battery on a wiring board, and in particular, when a battery is connected to a circuit on a wiring board, other circuits in one circuit The present invention relates to a battery mounting method that prevents battery short circuits caused by defective parts, etc.

[Prior Art] Conventionally, various electronic devices have built-in batteries for various purposes. For example, when a battery is mounted on a wiring board for the purpose of back-up power supply for a circuit, the connection between the battery and the circuit is made by wiring on the wiring board, and at the same time as the battery is mounted, current flows through the circuit. It had become.

[Problems to be Solved by the Invention] In the conventional battery mounting method 3 described above, if there is a component defect or a mounting defect in other components mounted on the wiring board on which the battery is mounted, Since there is a possibility of battery short-circuiting, the following measures have been taken to prevent this.

That is, the first step is to assemble the panel by mounting components other than the battery, as shown in the process diagram in Figure 3(a).
After conducting a continuity test (panel test-1), batteries are mounted, and then a final panel test (panel test-2), device assembly, and device test are performed in sequence.

The second is, as shown in the process diagram in Figure 3(b),
After installing a switch, etc. at the battery connection, and completing the panel assembly with all components including the battery mounted, and the continuity test in that state (panel test-1),
The battery is electrically connected using a switch.

In the first and second cases as well, the panel final inspection (panel inspection-2), device assembly, and device inspection are performed in sequence.

However, when such measures are taken, it is necessary to perform separate mounting or to provide a switch circuit for battery connection, which lengthens the production process and increases component costs. There was a problem.

The present invention has been made in view of the above-mentioned problems.
The object of the present invention is to provide a battery mounting method that can shorten the production process and reduce production costs.

[Means for Solving the Problems] In order to achieve the above object, the battery mounting method of the present invention provides a method for mounting a battery on a wiring board housed in a case, in which a method for driving a circuit on the wiring board is provided. A battery is mounted on a wiring board in advance, a part of the connection line between the battery and the circuit is cut, and the wiring board is housed in the casing, so that the connection line is electrically connected. It is recommended that you connect it accordingly. If necessary, the connection line may be a ground line connecting the negative electrode of the battery and the circuit, or a power line connecting the positive electrode of the battery and the circuit.

[Example] An example of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing a wiring board and a casing for implementing the battery mounting method of the present invention.

In the figure, 10 is a wiring board, a circuit 11 is formed on this wiring board, and a battery 12 for driving the circuit 11 or a circuit component (not shown) mounted on the circuit 11 in advance. has been implemented.

Connection between the circuit 11 and the battery 12 is made by a connection line, and this connection line includes a power supply line 13 connecting the positive terminal of the battery 12 and the circuit 11, and a power line 13 connecting the positive terminal of the battery 12 and the circuit 1.
1 and a ground line 14 connecting the two. Here, the ground line 14 includes two ground lines 14a and 1
4b, and this cut ground line 14
A terminal 15 connected to the negative electrode of the battery 10 and a terminal 1 connected to the 1 circuit 11 are provided at the ends of a$ and 14b, respectively.
6 is provided.

20 is a casing for accommodating the wiring board 10, and the wiring board IO is incorporated into the casing 20 when assembled as a device. Two terminals 22 and 23 that are electrically connected to each other by a conductor 21 are provided within the housing 20 .

The terminals 22 and 23 are connected to the terminals 15 and 1 on the wiring board 10 when installed on the wiring board 0 or in the housing 20.
6 and are arranged at positions where they are in contact with each other.

Therefore, when the wiring board 10 is assembled into the housing 20, the terminals 15 and 22 and the terminals 16 and 23 come into contact with each other directly or indirectly through metal screws or the like. As a result, the ground line 14a that had been cut
and 14b are electrically connected by a conductor 21,
As a result, the circuit 11 and the battery 12 are electrically connected.

Next, a device production process carried out by the battery mounting method of the present invention will be described.

FIG. 2 is a flow diagram showing the steps when implementing the battery mounting method of the present invention.

Finally, the battery and all other components are mounted on the wiring board (panel assembly). At this time, the battery and the circuit are not electrically connected. In this state, the continuity of the circuit is tested. The battery is inspected for short circuits due to component defects or mounting defects (panel inspection). I wanted to,
Prevents battery and circuit short circuit accidents.

After completing the panel inspection, place the wiring board into the casing (usually the device body)
In the present invention, the battery and the circuit are electrically connected by this device assembly.

By using the battery mounting method of the present invention, the panel assembly process can be divided into two steps as in the first measure described above, or the electrical connection of the mounted battery can be made as in the second measure as described above. There is no need to use parts such as switches, and therefore the production process can be shortened compared to the conventional method, and production costs can be reduced.

After the above device is assembled, the device is inspected and the entire process is completed.

It should be noted that the present invention is not limited to the above-mentioned embodiments, and can be modified as appropriate.

For example, in the above embodiment, a part of the ground line 14 is cut off, but a part of the power supply line 13 may also be cut off.

Moreover, the conductor 21 and the terminals 22, 23 for electrically connecting the cut ground line are not provided inside the housing, but are housed in the housing close to the wiring board lO on which the battery is mounted. In this case as well, the disconnected ground line can be electrically connected by accommodating the wiring board IO on which the battery is mounted in a housing.

[Effects of the Invention] As explained above, according to the battery mounting method of the present invention,
Since the electrical connection between the battery and the circuit is made by assembling the device, it is possible to shorten the production process and reduce production costs.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a wiring board and a casing for carrying out a battery mounting method according to an embodiment of the present invention, and FIG.
The figure is also a flowchart showing the production process, Figure 3 (a
) and (b) are flowcharts showing the production process when a conventional battery mounting method is used. 10: Wiring board 1: Circuit 12: Battery 20: Housing

Claims (3)

[Claims] (1) In a method of mounting a battery on a wiring board housed in a housing, a battery for driving a circuit on the wiring board is mounted on the wiring board in advance, and the battery and the circuit are connected together. Cut off part of the connection line,
A battery mounting method characterized in that the connection line is electrically connected by accommodating the wiring board in the casing. (2) The battery mounting method according to claim 1, wherein the connection line is a ground line that connects the negative electrode of the battery and the circuit. (3) The battery mounting method according to claim 1, wherein the connection line is a power supply line that connects the positive electrode of the battery and the circuit.