DE710174C - Piezoelectric crystal - Google Patents

Description

Piezoelectric Crystal The invention relates to "a piezoelectric crystal Crystal in which the oscillating body and carrier are made from a single piece of the same material.

In the main patent is designed as a piezoelectric crystal Oscillator or resonator with low radiation attenuation has been proposed, which is characterized in that the actual, the desired vibrations fully functioning vibrating body with its, if necessary, to be relieved of the vibrations carrier made of the same material in or near a neutral zone the oscillating movement is rigidly connected, and that the carrier with regard to his elastic properties compared to the oscillating body designed to be soft springy is. Under soft spring should be understood here that the elastic properties of the carrier are different from those of the actual oscillating body. You can do the mentioned Carrier z. B. thereby train soft resilient in comparison to the vibrating body that its thickness is chosen to be sufficiently small compared to the thickness of the pig's body. The invention relates to such a crystal in which the vibrating body and Carrier consist of a piece of the same material. It was already known - the support points of piezoelectric oscillators and resonators in to lay the movement nodes of the desired frequency.

The invention is characterized in that as a carrier or serve several stem-shaped approaches.

Some exemplary embodiments of the inventive concept are shown in the figures. In Fig. I, the oscillating crystal, which may for example consist of quartz, has the shape of a circular plate Q, which is provided at opposite points with two stem-shaped attachments S 1 and S 1. The stems now attack the vibration node by sitting in the center plane of the plate Q, as can be clearly seen from the side view. The stems S, and S2 and the plate Q consist of a single piece and are not put together afterwards. As shown in the figure, the two stems are tapered at their starting points, so that the common area between the quartz plate Q and the stem S1 or S. is small. It seems particularly favorable to arrange the stalks at those points on the circumference of the disk where there is a node. place finds. If, for example, a plate of section Y8 (i.e. a plate whose surface normal forms the angle of inclination d with the optical axis) is excited to vibrate transversely, then, as is well known, independent of the angle of inclination d, four nodes occur at the edge, two of which are in the direction of the electrical axis and the other two lie in an axis perpendicular to it. It is therefore expedient to arrange the stems at such nodes, since in this case they exert the least influence on the oscillation process. In addition, it is not necessary to make the holder by means of two handles, but you can also provide only a single handle or more than two handles as required. The quartz body can now be held in a simple manner, for example by clamping the stems. In a further embodiment of the main patent, the oscillating crystal has the shape of a circular quartz plate, which is connected to the edge by a circular ring of small diameter. In the main patent, the case is shown that the edge surrounds the plate over the entire circumference. In carrying out the invention, however, it is w j i possible to use this margin and the to leave the bathing rings only at certain points of the "Ui'ang, so that they have the arms of stems of varying cross-section.

In Fig. A is a rectangular crystal plate as a further embodiment Q represented by two stalks attacking at diagonally opposite corners S, and S. is worn. "

Claims (1)

PATENT APPLICATION: i. Piezoelectric crystal according to patent 66.1. g $ 3, in which the oscillating body and carrier consist of one piece of the same material, characterized. dala serve as a carrier one or more stalk-shaped approaches. z. Piezoelectric crystal according to claim i, characterized in that: ', the Reduced cross-section of the approaches at the connection point with the vibrating crystal is. 3. Piezoelectric crystal according to claim i, characterized in that the approaches at places where stylish knots occur are provided.