JPH0129545Y2 - - Google Patents

Description

[Detailed Description of the Invention] Industrial Application Field The present invention relates to a knock sensor for detecting abnormal engine vibrations in automobiles and the like.

Structure of the conventional example and its problems The conventional knock sensor has a structure in which a piezoelectric ceramic is fixed to a diaphragm that is vibrably supported on a substrate. Take out the electrical signal,
Knocking was detected using this electrical signal waveform.

The conventional knock sensor having the above structure has the disadvantage that the resonance Q is large and the resonance frequency band is narrow and the response is poor. Further, in the conventional example, since the output impedance of the knock sensor is high, noise is easily picked up in the middle of the lead wire connecting the sensor and the engine control circuit.

Purpose of the Invention The present invention aims to eliminate the above-mentioned conventional drawbacks, improve responsiveness, lower output impedance, and further improve reliability under adverse environments.

Structure of the invention The present invention improves responsiveness by connecting a resistor between the output terminals of the sensor.
This is intended to improve reliability under adverse environments by lowering the output impedance and fixing one end of the resistor to the substrate.

DESCRIPTION OF THE EMBODIMENTS An embodiment of the present invention will be described below in Figures 1 and 2.
This will be explained with figures.

1 and 2, reference numeral 1 denotes a substrate, and a diaphragm 4 is supported on this substrate 1 via support stands 2 and 3. In FIG. A piezoelectric ceramic 5 is bonded to one side of the diaphragm 4, and electrodes are provided on both sides of the piezoelectric ceramic 5 by baking. 6
is a pin fixed to a hole formed in the substrate 1 with an insulator, and this pin 6 passes through the substrate 1. 7 is a round chip-shaped resistor, a cap 7a at one end of this resistor 7 is coated with solder paste, and one end of this resistor 7 is formed on the substrate 1 as shown in FIG. It is inserted into the hole 8 and fixed with solder 9. 10 is a lead foil whose one end is connected to the other end of the resistor 7, the other end is connected to the pin 6, and the middle part is connected to the electrode of the piezoelectric ceramic 5.

The board 1 etc. shown in FIG. 1 are housed in a casing, and this casing is attached to an engine. The vibrations of the engine are transmitted to the piezoelectric ceramic 5, and an electric signal corresponding to the vibrations is generated between the electrodes of the piezoelectric ceramic 5. Since one electrode of the piezoelectric ceramic 5 is electrically connected to the substrate 1 via the conductive diaphragm 4 and the conductive support 3, the signal generated between the electrodes of the piezoelectric ceramic 5 is transmitted to the substrate 1. and pin 6.

In this way, according to this embodiment, since the resistor 7 is connected between the electrodes of the piezoelectric ceramic 5, the resonance Q of the piezoelectric ceramic 5 is lowered, the resonance frequency band is widened, and the response is improved. This has the advantage that the output impedance is reduced and noise is less likely to be picked up. Also, since one end of the resistor 7 is fixed to the substrate 1, vibration resistance is improved, and attachment of the lead foil 10 is made easier. This makes it easier.

FIG. 3 shows another embodiment of the invention. In this embodiment, a protrusion 11 may be formed on the substrate 1, and the resistor 7 may be soldered onto the protrusion 11.

Effects of the invention The present invention has the above-mentioned configuration. In this invention, a resistor is connected between the electrodes of the piezoelectric ceramic, so the resonance Q is reduced, the resonance frequency band is widened, and the response is improved. At the same time, the output impedance is reduced and there is an advantage that no noise is picked up. In addition, in the present invention, one electrode of the piezoelectric ceramic is electrically connected to the substrate via the diaphragm and the support, so when one end of the resistor is fixed to the substrate, one electrode of the piezoelectric ceramic One end of the resistor is electrically connected. Therefore, by connecting the other electrode of the piezoelectric ceramic and the other end of the resistor, the resistor is connected between the electrodes of the piezoelectric ceramic. As described above, according to the present invention, by fixing one end of the resistor to the substrate,
The resistor can be securely fixed, and the electrical connection with one electrode of the piezoelectric ceramic can be made securely.
Further, the other end of the resistor is close to the other electrode of the piezoelectric ceramic, making it easy to connect the other end of the resistor to the other electrode of the piezoelectric ceramic.

[Brief explanation of the drawing]

Fig. 1 is a perspective view of the essential parts of a knock sensor according to an embodiment of the present invention, Fig. 2 is a partially enlarged sectional view of the same knob sensor, and Fig. 3 is a partially enlarged sectional view of another embodiment of the present invention. be. 1... Substrate, 2, 3... Support stand, 4... Vibration plate, 5... Piezoelectric ceramic, 6... Pin, 7...
Resistor, 7a... Cap, 8... Hole, 9... Solder, 10... Lead foil, 11... Projection.

Claims (1)

[Claims for Utility Model Registration] (1) A conductive substrate, a conductive support fixed to the substrate, a conductive diaphragm supported by the support, and electrodes formed on both sides. It has a piezoelectric ceramic whose one electrode side is bonded to the diaphragm, and a resistor whose one end is fixed to the substrate and whose other end is connected to the other electrode of the piezoelectric ceramic, and the resistor is connected to the piezoelectric ceramic. A knock sensor is connected between the electrodes of. (2) The knock sensor according to claim 1 of the utility model registration, in which one end of a resistor is inserted and fixed into a hole formed in a substrate. (3) The knock sensor according to claim 1, wherein one end of a resistor is fixed to a protrusion formed on a substrate.