JPS61212077A - Piezoelectric ceramic high-voltage generator - Google Patents

Abstract

PURPOSE:To produce high-voltage pulses having a unique waveform, by composing a hammer for impacting against a piezoelectric ceramic element of two impactors. CONSTITUTION:A hammer 14 is composed of a combination of a first impactor 14A consisting of a metallic part 14a and a resin part 14b and a second impactor 14B consisting only of a metallic part 14c. An internal cylinder 5 is pressed in so that the internal cylinder 5 penetrates into a cylinder part 4b of an external cylinder 4 while compressing an impact spring 12 and a returning spring 6. A pin 8 is thereby pushed by an oblique side 9a of a hole 9 with oblique sides and disengaged from a small projection 11. Consequently, the hammer 14 is caused to impact against a patch metal 2 by the impact spring 12 thus actuated. An impact is applied to a piezoelectric ceramic element 1, whereby a first high-voltage pulse Pa is generated by the first impactor 14A and thereafter a second high-voltage pulse Pb is generated by the second impactor 14B.

Description

[Detailed Description of the Invention] [Object of the Invention] The present invention provides a remote controller that uses the electromagnetic waves generated by causing a high voltage pulse generated when a shock is applied to a piezoelectric ceramic element to spark discharge across a discharge gap. This invention relates to improvements in piezoelectric ceramic high voltage generators used in equipment control transmitters and the like.

A conventional device of this type, which is the object of the improvement of the present invention, will be explained with reference to FIG. ■ is a piezoelectric ceramic element with a pad 2 in front.
, the receiver has a gold plate 8 at the rear and is fixed to the base 4a of the outer cylinder 4. Reference numeral 5 denotes an inner cylinder which is slidably inserted into the cylindrical part 4b of the outer cylinder 4, and a return spring 6 is provided between it and the base 4a of the outer cylinder 4.

7 is slidably inserted into the inner cylinder 5, and has a pin 8 passing through its center at right angles to the axial direction;
This pin 8 passes through a hypotenuse hole 9 provided in the inner cylinder 5 and passes through the outer cylinder 4.
Both ends thereof are engaged with the grooves 10 provided in the cylindrical portion 4b. (2) Reference numeral 2 is an impact spring provided between the hammer 7 and the cylinder 5, and 13 is an opening provided in the end face of the inner cylinder 5.

Next, its effect will be explained. When the inner cylinder 5 is pushed in the direction of the arrow N, the pin 8 is locked to the notch 11 of the outer cylinder 4, so the nozzle 7 stays in that position, and the inner cylinder 5 is moved by the impact spring 12 and the return spring 6. is compressed and enters into the cylindrical portion 4b of the outer cylinder 4. As the inner cylinder 5 enters, the oblique side 9a of the oblique side hole 9 is rotated.
When it reaches the position of 8, the pi/8 is pushed by the hypotenuse 9a and becomes the pin 1.
1 is disengaged, the hammer 7 impacts the stopper 2 by the biased impact spring 12. When the fingertip pressing the inner cylinder 5 is released from the inner cylinder 5, the hammer 7 returns to its original position (the position shown in the figure) by the biased return spring 6. The high voltage generated in the piezoelectric ceramic element 1 by the impact of the magnet 7 is connected to the inner cylinder 5 through the metal plate 3 as one terminal, and the other terminal via the metal plate 21 hammer 7 and impact spring 12. It is taken out through the opening 13.

By the way, the high voltage pulse generated by the above-mentioned conventional piezoelectric ceramic high voltage generator is a simple high voltage pulse P having only one wave as shown in Fig. 8 (b). A remote control device that operates by receiving electromagnetic waves generated when discharging in a discharge gap may malfunction due to general electromagnetic noise generated in the surrounding area. The present invention is intended to solve this problem, and it is an object of the present invention to provide a piezoelectric ceramic high voltage generator that generates a high voltage pulse having a unique waveform.

[Structure of the Invention] A piezoelectric ceramic high voltage generating device of the present invention is a piezoelectric ceramic high voltage generating device that generates a high voltage pulse by applying an impact to a piezoelectric ceramic element with a hammer, in which the hammer has a metal part and a resin part. It is characterized in that it is constructed by connecting a first impactor whose impact side is a metal part, and a second impactor made of only a metal part.

An embodiment of the invention will be described with reference to FIG.

In this figure, the structures and functions of parts 1 to 18, excluding the hammer 14, are the same as in FIG. 2, so their explanation will be omitted.

The hammer 14 in the present invention includes a first impactor 14A consisting of a metal part 141L and a resin part 14b, and a metal part 14A.
The bottle 8 is constructed by being connected to the second impactor 14B of 00 Miyoshi, and passes through the resin portion 14b.

7. Since the magnet 14 of the present invention has the above structure, when an impact is applied to the piezoelectric ceramic element 1, the first high voltage pulse is first generated by the first impactor 14A, as shown in FIG. P
a, and then, after a slight delay, the second impactor 14B generates a second high voltage pulse Pb. This time delay is due to a delay in impact force transmission in the resin portion 14b.

[Effects of the Invention] As described above, the piezoelectric ceramic high voltage generator of the present invention generates a unique high voltage pulse as shown in FIG. If the device is set to operate only when it receives an electromagnetic wave pulse with a waveform like the one shown in Figure 3 (a), it can be distinguished from general electromagnetic noise generated in the surroundings, and malfunctions due to these can be avoided. Never.

Therefore, it has the effect of achieving the purpose of the invention.

[Brief explanation of the drawing]

Figure 1: A sectional view of an embodiment of the piezoelectric ceramic high voltage generator of the present invention. Figure 2: A sectional view of a conventional piezoelectric ceramic high voltage generator. Figure 8: An output waveform diagram of the piezoelectric ceramic high voltage generator. (a) is the device shown in Fig. 1, (b) is the device shown in Fig. 2 l... piezoelectric ceramic element, 2... pad, 8... receiver is gold, 4... outer cylinder, 4a ...Base, 4b...Cylinder part,
5...Inner cylinder, 6...-Return spring, ? ···hammer(
conventional product), 8... pin, 9... hypotenuse hole, 9a...
・Hytenuse, 10...Groove, 11...Bottom, 12...Impact spring, 1B...Opening, 14...No mark (
present invention), 14A...first impactor, 14B...
2nd impactor, 14a...metal part, 14b...resin part, 14C...metal part ji-tl fort"υ, 1

Claims (1)

[Claims] In a piezoelectric ceramic high voltage generator that generates a high voltage pulse by applying an impact to a piezoelectric ceramic element with a hammer, the hammer includes a first impactor that is made of a metal part and a resin part and has the metal part as the impact side; A piezoelectric ceramic high voltage generator characterized in that it is configured by being connected to a second impactor made of only a metal part.