JPS6323205Y2 - - Google Patents

Description

[Detailed description of the invention] This invention is an improvement of a printed circuit board on which a resistor, etc. that constitutes a potentiometer is installed, in a motor actuator used mainly to operate air mix doors and other doors of automobile air conditioners. It is related to.

As shown in FIG. 1, the motor actuator includes a motor 2 and a gear device 3 housed in a case 1, and the rotation of the motor 2 is decelerated via the gear device 3 and transmitted to an output shaft 4. Further, the output from the output shaft 4 is transmitted to the door of the automobile air conditioner via a link mechanism. The gear device 3 is composed of a worm 5 fixed to the rotating shaft 2a of the motor 2, an intermediate gear 6 that meshes with the worm 5, and an output gear 7 that meshes with the intermediate gear 6. The output shaft 4 is fixed above, and a potentiometer and a rotation control switch described below are provided between the output gear 7 and a printed circuit board 8 disposed in the case 1.

In FIG. 2, the potentiometer 9 has movable contacts 10a provided at the bottom of the output gear 7,
10b slides between a resistor 11 and a conductor 12 provided on the printed circuit board 8, and is configured to detect the rotation angle of the output shaft 4 as a voltage value. On the other hand, the rotation control switch 13 has three movable contacts 14a to 14c provided at the bottom of the output gear 7, like the potentiometer 9, connected to a printed circuit board 8.
When one of the fixed contacts 15a to 15c is a common contact and one of the movable contacts 14a to 14c is separated from the other two fixed contacts, the motor 2 is driven. is configured to stop and regulate the maximum rotation angle of the output shaft 4.

The resistor 11 of the potentiometer 9 is connected at both ends to connecting portions 17a, 17b on the board body 16, and the connecting portions 17a, 17b are formed around through holes 18, 18. The board body 16 is inserted through the through holes 18, 18.
It is designed to be connected to the wiring on the back side of the

However, since the connecting portions 17a and 17b are formed by plating, their thickness is, for example, about 80 microns, whereas the resistor 11 is printed by baking, so its thickness is thin, for example, about 20 microns. Conventionally, as shown in FIG. 3, the resistor 11 is printed directly on the board body 16, and both ends of the resistor 11 are overlapped with the connector 17a to ensure connection with the connector 17a. Therefore, a thick plate portion 11c is formed between the overlapping portion 11a and the flat surface portion 11b that is flat with respect to the substrate body 16.

Therefore, as shown by the solid line in FIG. 4, although the opening degree K of the door and the resistance value R of the resistor 11 should originally be proportional, the cross-sectional area of the plate thickness portion 11c is
Since S' is larger than the cross-sectional area S of the plane portion, the proportional relationship deviates significantly particularly in the portions where the opening degree K of the door is small and the portion where it is large, as shown by the two-dot chain line in the figure. For this reason, for example, when moving an air mix door, the resistance value R already corresponds to full cool or full heat at opening degrees K ₃ and K ₄ , which are smaller than opening degrees K ₁ and K ₂ , which correspond to positions where the air mix door is at full cool or full heat. This has the disadvantage that accurate control cannot be performed, such as when the motor starts to show resistance values R ₁ and R ₂ , which causes air leakage, and only an incomplete full cool or full heat state can be achieved. .

As described above, the object of this invention is to eliminate the inaccuracy of control caused by the thick plate portion formed in the resistor that constitutes the potentiometer. However, the gist of this invention is that an electrode section is placed between the resistor constituting the potentiometer and the connection section on the substrate body, and both ends of the electrode section are overlapped with the resistor and the connection section. It is located on a printed circuit board of a motor actuator which interposed therebetween and connected the resistor and the connecting portion. Therefore, because the electrode part can be formed thinner than the connection part due to manufacturing technology, the plate thickness of the resistor can be almost eliminated, and therefore the resistance value of the resistor can be maintained over the entire range of the door opening. It is possible to achieve the above object by making it almost proportional to the degree.

Examples of this invention will be described below with reference to the drawings.

5 and 6, an embodiment of the invention is shown, in which a printed circuit board 8 has a substrate body 16 made of a base material of, for example, paper-epoxy resin or glass epoxy resin. A through hole hole 18 is formed. This through-hole hole 18 connects the wiring on the back surface of the printed circuit board 8 to the resistor 11 via the electrode section 19 (described below) through connection sections 17a and 17b plated on the substrate body 16.
is connected to.

The resistor 11 is for configuring a potentiometer similarly to the conventional example described above.
1 is overlapped with one end of the electrode section 19 to form an overlapping section 11a and connected to the electrode section 19. On the other hand, the electrode part 19 is made of, for example, an epoxy-based binder mixed with silver, and the other end of the electrode part 19 is overlapped with one end of the connecting part 17a, and the overlapping part 19a
and is connected to the connecting portion 17a. Also,
This electrode part 19 is different from the connecting part 17a and is provided by means such as baking or vapor deposition, and therefore, while the connecting part 17a has a thickness of about 80 microns, for example, it has a thickness of about 20 microns. It is formed thinly. Therefore, the plate thickness portion of the resistor 11 can hardly be seen in front of the overlapping portion 11a, and the characteristics of the resistor 11 approach the solid line in FIG. 4.

The resistor 11 and the electrode section 19 are connected to the substrate main body 1.
6 with a resist layer 20 interposed therebetween.
This resist layer 20 is made of a solder resist, and the substrate body 16 is made of uneven glass fibers.
The surface of the resistor 11 is made smooth to improve the durability of the resistor 11.

In addition, in FIGS. 3 and 5, one of the through-hole holes 18 is drawn as the starting point, so the position of the through-hole hole 18 is the same in both figures, but the length of the resistor 11 is different from that of the conventional one. If it is the same, then in the printed circuit board of the motor actuator according to the present invention, the distance between the through holes 18, 18 will be longer than the conventional one by the provision of the electrode section 19.

In addition, in FIG. 5, the difference in thickness between the electrode part 19 and the overlapping part 11a of the resistor 11 in the vertical direction is in microns as described above, so in reality, it is difficult to visually recognize this difference in thickness. It is considered almost impossible. Therefore, in the enlarged perspective view of FIG. 6, the portions with different thicknesses are shown in a slightly more emphasized manner than they actually are.

As described above, according to this invention, the resistor and the connection part are connected through the electrode part, and the thickness of the plate formed on the resistor is reduced, so that control by the potentiometer can be made more accurate. be able to. Further, since there is little variation in resistor characteristics, it is advantageous in terms of quality control.

[Brief explanation of the drawing]

Fig. 1 is a cross-sectional view showing a conventional motor actuator, Fig. 2 is a perspective view showing the output gear and printed circuit board in the same as above, and Fig. 3 is a cross-sectional view showing the state of connection with the connection part of the resistor in the same as above. 4 is a characteristic diagram of the resistor shown in the above, FIG. 5 is a sectional view showing the main part of this invention, and FIG. 6 is an enlarged perspective view showing the main part of this invention. 9... Potentiometer, 11... Resistor, 1
7... Connection section, 19... Electrode section.

Claims (1)

[Scope of utility model registration request] An electrode part is interposed between the resistor constituting the potentiometer and the connection part on the substrate main body, with both ends of the electrode part overlapping the resistor body and the connection part, and the resistor and the connection part are connected to each other. A printed circuit board for a motor actuator, characterized in that it is connected to the motor actuator.