JPS639975Y2 - - Google Patents

Description

[Detailed description of the invention] (Industrial application field) This invention is a motor actuator that is mainly used to operate air mix doors of automobile air conditioners, etc., and the motor drive circuit is activated when the motor becomes abnormally heated. It relates to a device that opens and prevents fire.

(Prior Art) A motor actuator transmits the forward and reverse rotational force of a motor to an output shaft via a gear device.
It is configured to provide a desired angle to the output shaft by controlling the motor on and off. If the motor of such a motor actuator is locked for some reason, the locked current will cause abnormal heating and, in the worst case, a fire. To prevent this, a fire prevention device is installed. It is being As a conventional example of this type, there is U.S. Pat. In this example, a temperature fuse is installed upright on a wiring board having a control circuit for an actuator, etc., and when a motor is attached, the body of the motor comes into contact with the assembly.

(Problem to be solved by the invention) However, since the temperature fuse is mounted on the wiring board that contains the actuator control circuit, etc., the board must be extended to the bottom of the motor, and the wiring board becomes large, and as a result, the motor actuator also becomes large.
Further, although the spring effect of the lead wire of the temperature fuse is utilized, the fuse and the wiring board are welded close together, so there is almost no spring effect.

Therefore, the purpose of this invention is to reduce the size and simplify the mounting structure of the temperature fuse, and to provide the temperature fuse with a spring effect that keeps it in contact with the motor at all times.

(Means for Solving the Problems) The gist of this invention is that a pair of temperature fuse connections 15a, 15b and a pair of motor terminal connections 16
a, 16b, and a pair of penetration means 22a, 22b, the temperature fuse mounting board 14 has the desired printed wiring, and the lead wires 21a, 21b of the temperature fuse 20 are connected to the temperature fuse mounting board 1.
4, and the leads of the temperature fuse on the side opposite to the temperature fuse are kept at an appropriate distance A so that the temperature fuse 20 is lifted from the temperature fuse mounting board 14. The wires 21a and 21b are bent from the middle, and the tips thereof are connected to the temperature fuse connection portion 15.
a, 15b, and then connect the pair of terminals 23 of the motor 1 to the motor terminal connection parts 16a, 16.
b, and the temperature fuse mounting board 14 is placed behind the motor 1 so that the temperature fuse 20 can be brought into elastic contact with the motor 1.

(Function) Therefore, the temperature fuse is mounted floating above the temperature fuse mounting board, and when this temperature fuse mounting board is mounted to the terminal of the motor, it is placed behind the motor, and at that time, The temperature fuse is in contact with the motor, but as mentioned above, since the motor actuator is floating above the temperature fuse mounting board, it has a spring effect and can maintain the temperature fuse in contact with the motor at all times. It is possible.

(Example) Hereinafter, an example of this invention will be described with reference to the drawings.

In the figure, the motor actuator is motor 1
A gear device 2 that decelerates and transmits the rotation of the motor 1 to the output shaft 5, and a wiring board 3 on which a drive circuit and a control circuit for the motor 1 are formed are connected to upper and lower cases 4a and 4b made of resin, for example. and is arranged inside the motor case 4c.

The motor 1 has a cylindrical shape, and is fixed to the upper case 4a together with a motor case 4c by screws (not shown) via a bracket 6 attached to the tip.

The gear device 2 also includes a worm 7 fixed to the shaft 1a of the motor 1, an output gear 11 having an output shaft 5 and three intermediate gears 8, 9, 10 that mesh with the worm 7. The rotational force of the motor 1 is reduced by the device 2.

The wiring board 3 has a flat plate shape and is arranged on the bottom inner surface of the lower case 4b. Although not shown, the wiring board 3 has, for example, a plurality of terminals (not shown) provided at the bottom of the connector and the output gear that come into contact with each other. A control board (not shown), a diode, etc. are provided, and these are appropriately wired and connected to constitute a motor drive circuit that energizes the motor 1 and a control circuit that controls the drive of the motor 1.

The protection device 13 has a pair of temperature fuse connection parts 15 on a temperature fuse mounting board 14 constituting the protection device 13.
a, 15b, and a pair of motor terminal connection parts 16a,
16b, and a drive circuit connection portion 17a to which the wiring 18 connected to the motor drive circuit of the wiring board 3 is connected.
17b, and these temperature fuse connections 1
5a and the drive circuit connection part 17a are connected by the conductive part 19a, the temperature fuse connection part 15b and the motor terminal connection part 16a are connected by the conduction part 19b, and the drive circuit connection part 17b and the motor terminal connection part 1 are connected by the conduction part 19b.
6b is connected to the conductive part 19c, and these printed wirings are connected to the temperature fuse connection parts 15a, 15b.
When a temperature fuse 20 described below is connected to the motor drive circuit, the temperature fuse 20 is connected in series to the motor drive circuit.

The temperature fuse 20 is disconnected when exposed to heat of about 90° C., for example. Lead wires 21a and 21b of this temperature fuse 20 are connected to the temperature fuse mounting board 1.
The lead wires are loosely inserted into the pair of through holes 22a and 22b formed in 4, and bent from the middle of the lead wires at an appropriate distance A so that the temperature fuse 20 is lifted from the temperature fuse mounting board 14. , whose tip is connected to the drive circuit connection part 1
It is welded to 7a and 17b with solder. Therefore, before assembly to the motor 1, the temperature fuse 20 is separated from the temperature fuse mounting board 14 by a distance A, as shown in FIG. To attach the temperature fuse mounting board 14 attached to the temperature fuse 20 to the motor 1, first weld the wiring 18 to the previous drive circuit connection parts 17a, 17b with solder, and also solder the wiring 18 to the motor terminal connection parts 16a, 16b. The terminals 23 (there are two terminals, one not shown) of the motor 1 are inserted into the terminals 23 and welded with solder. As a result, the temperature fuse mounting board 14 is placed behind the motor 1 and the temperature fuse 2 is placed behind the motor 1.
0 is in contact with the motor and is pressed in the direction in which the distance A decreases, and its lead wires 21a and 21b protrude at a distance B toward the side opposite to the motor. That is, elastic force is applied to the lead wires 21a and 21b, and the temperature fuse 20 is always pressed against the back of the motor 1.

In the above-described configuration, if the motor 1 is locked for some reason, a lock current is supplied to the motor 1, causing the motor 1 to overheat. Since the temperature fuse 20 is in contact with the motor 1, this heat is
The temperature is transmitted to the temperature fuse 20, and the temperature is e.g.
When the temperature exceeds 90° C., the wiring inside the temperature fuse 20 is cut, the motor drive circuit is opened, and no current flows through the motor 1 after that. This prevents the motor 1 from overheating further and prevents the occurrence of a fire.

In addition, in the temperature fuse mounting board, through holes 22a and 22b are formed into which the lead wires 21a and 21b of the temperature fuse 20 are loosely inserted.
The present invention is not limited to this, and a cut groove may be used instead.

(Effects of the invention) As described above, according to this invention, the temperature fuse is mounted floating on the temperature fuse mounting board by making full use of the long lead wire, so that the temperature fuse mounting board can be mounted on the motor terminal. At times, elastic force is applied to the lead wire of the temperature fuse, so that the temperature fuse is maintained in contact with the motor at all times.

Further, unlike the conventional example, the wiring board does not have to extend to the bottom of the motor, so the motor actuator can be made smaller.

[Brief explanation of the drawing]

Figure 1 is a sectional view showing an embodiment of this invention, Figure 2 is a sectional view showing an embodiment of this invention.
3 and 3 are a sectional view and a plan view of the temperature fuse mounting board with the temperature fuse attached, and FIG. 4 is an explanatory diagram showing the positional relationship of the temperature fuse with the temperature fuse mounting board attached to the motor terminal. It is. 1...Motor, 14...Temperature fuse mounting board, 15a, 15b...Temperature fuse connection part, 1
6a, 16b...Motor terminal connection part, 17a, 1
7b...Drive circuit connection portion, 20...Temperature fuse, 21a, 21b...Temperature fuse lead wire.

Claims (1)

[Claims for Utility Model Registration] A pair of temperature fuse connections 15a and 15b,
For a temperature fuse mounting board 14 which has a pair of motor terminal connection parts 16a, 16b and a pair of penetration means 22a, 22b and has a desired printed wiring, connect the lead wires 21a, 21b of the temperature fuse 20 to the temperature fuse. The temperature fuse 2 is loosely inserted into the penetration means 22a and 22b that penetrate the mounting board 14.
The lead wire 21 of the temperature fuse is placed on the side opposite to the temperature fuse while being kept at an appropriate distance A so that the wire 0 is lifted from the temperature fuse mounting board 14.
a, 21b are bent from the middle, and the tips thereof are attached to the temperature fuse connection parts 15a, 15b, and then the pair of terminals 23 of the motor 1 are connected to the motor terminal connection parts 16a, 16b to attach the temperature fuse mounting board. 14 is disposed behind the motor 1 so that the temperature fuse 20 can be brought into elastic contact with the motor 1.