JPS641617Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a knocking sensor that is attached to a cylinder block or the like and extracts the vibration as an electric signal in order to detect knocking in the combustion chamber of an internal combustion engine.

As a conventional knocking sensor, there is one shown in FIG. 1, for example.

To explain this, the bottomed cylindrical case 1
A pair of piezoelectric elements 3 holding a lead plate 2 between them, and a weight 4 for applying stress to the piezoelectric elements 3 by vibration acceleration are fixed to the inner bottom part with bolts 5. 6 is an insulator.
The opening of the case 1 is connected to a lead wire 7 for transmitting electrical signals generated in the piezoelectric element from a lead plate 2 to a lead wire 7.
A cover 9 having a terminal 8 to be taken out to the outside through the case 1 is attached by crimping the edge of the opening of the case 1.

In addition, since the output impedance of the electric signal obtained by the piezoelectric element 3 is high, high insulation is required, so in order to improve waterproofness and airtightness, a soft resin with excellent adhesiveness (for example, urethane, epoxy The case 1 and the cover 9 were filled with the following resin.

This knocking sensor is attached to a cylinder block or the like using the threaded part 11 of the case 1, receives the vibrations, and generates an electric signal in the piezoelectric element 3 corresponding to the vibration acceleration, and then transmits this electric signal to an external control unit. The control unit is designed to detect knock vibration.

However, in such a conventional knocking sensor, since the resin 10 is completely filled in the hollow parts of the case 1 and the cover 9, the weight of the resin 10 is added to the weight 4, and the piezoelectric element 3 The magnitude of the electrical signal obtained by is not dependent only on the weight of weight 4, which makes adjustment difficult.
If the hardness of the resin 10 changes due to temperature, it will be greatly affected, so there is a problem that the same electrical signal cannot be obtained with respect to temperature changes.

The present invention was developed with the aim of solving these conventional problems, and by covering the inner surfaces of the hollow parts in the case and cover with a film of resin, it maintains waterproofness and airtightness. , which is made using resin so that it does not affect the weight.

The present invention will be explained below with reference to an embodiment shown in FIG. However, in this embodiment, the conventional example (first
The same parts as in Figure) are given the same reference numerals.

To explain the structure, the inner surfaces of the hollow parts in the case 1 and the cover 9 are covered with a soft resin 10 in the form of a film.

The method is to fix the piezoelectric element 3 and weight 4 to the bottom of the case 1 with bolts 5, and then inject a small amount of soft resin 10 in a liquid state compared to the volume of the hollow part. After the cover 9 is attached to the opening of the case 1, most of the soft resin 10 is flowed toward the cover 9 side in the opposite direction to that shown in the figure.
The inner surface of the hollow part is covered with a thin film and cured in this state.

Therefore, the resin 10 is thinly interposed on the inner surface of the hollow part in the case 1 and the cover 9, and the case 1
As a result, the weight of the resin 10 hardly acts on the weight 4 while maintaining sufficient waterproofness and airtightness.

As explained above, according to the present invention, the inner surface of the hollow part in the case and cover of the notching sensor is covered with a film of resin, so while the waterproofness and airtightness are the same as before, the resin The influence on the weight can be made extremely small, and the characteristics can be determined almost solely by the weight of the weight, and moreover, the characteristics hardly change due to temperature changes. Furthermore, since the amount of resin used can be reduced, an effect can be obtained that leads to cost reduction.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing a conventional knocking sensor, and FIG. 2 is a sectional view showing an embodiment of the present invention. 1... Case, 3... Piezoelectric element, 4... Weight, 5... Bolt, 8... Terminal, 9... Cover,
10...Soft resin.

Claims (1)

[Scope of utility model registration request] A piezoelectric element and a weight for applying stress to the piezoelectric element through vibration acceleration are fixed to the bottom of the case with bolts, and the opening of the case has a terminal for extracting the electrical signal generated in the piezoelectric element to the outside. What is claimed is: 1. A notching sensor equipped with a notching sensor, characterized in that the inner surface of the hollow part in the case and cover is covered with a resin film.