KR19990000567U - Piezoelectric element measuring device of ceramic vibrator - Google Patents

Abstract

The present invention relates to a piezoelectric element measuring apparatus of a ceramic vibrator that allows the piezoelectric element to be easily measured regardless of the position of electrode patterns formed on both sides of the ceramic piezoelectric element when the ceramic piezoelectric element is measured. That is, the integrated measuring terminal 151 which is in contact with the one side electrode pattern 120 of the piezoelectric element 110 on one side of the ceramic piezoelectric element 110, the electrode patterns 120, 120 'cross-crossed on each side. And the measuring pins 152 and 152 'connected to the other electrode pattern 120' of the piezoelectric element 110, respectively, to contact the measuring device 150 as measuring lines 153 and 153 '. Characterized in that connected.

Accordingly, when measuring the piezoelectric element of the ceramic vibrator, the ceramic piezoelectric element of the ceramic vibrator can be easily measured regardless of the orientation according to the electrode pattern of the ceramic piezoelectric element, thereby improving workability, thereby reducing the defect rate of the ceramic vibrator. The overall productivity is improved by improving the reliability of the product, while the manufacturing and installation are easily performed due to the simple structure.

Description

Piezoelectric element measuring device of ceramic vibrator

The present invention provides a piezoelectric element measuring apparatus for a ceramic resonator which enables the piezoelectric element to be easily measured regardless of the position of electrode patterns formed on both sides of the ceramic piezoelectric element. In more detail, on one side of the ceramic piezoelectric element with the electrode patterns intersected on both sides, an integrated measuring terminal contacting one electrode pattern of the piezoelectric element is in contact, and the other electrode pattern of the piezoelectric element is connected to each other. The pins are in contact with each other to connect the measuring device as a measuring line.

Accordingly, when measuring the piezoelectric element of the ceramic vibrator, the ceramic piezoelectric element of the ceramic vibrator can be easily measured irrespective of the direction according to the electrode pattern of the ceramic piezoelectric element, thereby improving workability, thereby reducing the defect rate of the ceramic vibrator. The present invention relates to a piezoelectric element measuring apparatus of a ceramic vibrator, which can be easily manufactured and installed due to a simple structure while improving overall productivity due to improved reliability of a product.

Generally, a ceramic vibrator is an electronic component that functions as an operating source of a reference signal of a microprocessor by using the piezoelectric effect of the ceramic, that is, the mutual conversion function of electrical and mechanical energy. As the demand for the products is increasing rapidly, the ceramic vibrator manufactures a ceramic piezoelectric element, an electrode forming process of depositing and patterning electrodes on the surface of the element, and mounts the element on a substrate. Joining process with lead frame and finally finishing process such as wax dotting, epoxy coating and marking.

In this general ceramic vibrator, as shown in FIGS. 1 and 2, the ceramic piezoelectric element 2 having the input and output electrode patterns 1 and 1 ′ printed on both sides of the ceramic vibrator includes a support part of the lead frame 3. Soldering is coupled to (4) and the input and output terminals 5 and 5 'of the lead frame 3 are soldered and mounted on the substrate 6.

In addition, the input and output electrode patterns 1 and 1 ′ formed on both side surfaces of the ceramic piezoelectric element 2 are formed to cross at the central portion of the piezoelectric element 2. The vibration (resonance frequency) of the ceramic vibrator is generated between the overlapped electrode patterns 1 and 1 'of (2).

In the measuring apparatus 20 for measuring the piezoelectric element 2 of the conventional ceramic vibrator 10 related to the above technique, as shown in FIG. 3, the operator measures the measuring pins 21 and 21 of the measuring apparatus. ') Is placed in contact with the electrode pattern 1 (1') of the ceramic piezoelectric element 2 of the ceramic vibrator 10, and then the measuring pins 21 (21 ') and the measuring lines 22 (22') It is to measure the electrical characteristics of the ceramic piezoelectric element (2) as a measuring device (20) connected as.

However, in the piezoelectric element measuring apparatus of the conventional ceramic vibrator as described above, as shown in Figs. 1 to 3, the operator is required to measure the piezoelectric element 3 of the ceramic vibrator 10 during the measurement operation. The measuring pins 21 and 21 'of the 20 are brought into contact with the electrode patterns 1 and 1' intersected on both sides of the piezoelectric element 2, thereby making the measurement work cumbersome, and thus, ceramic piezoelectric. While the measurement time of the device 2 is delayed, the manufacturing productivity of the ceramic vibrator 10 is lowered, while the measurement error of the operator is easily generated, and the product reliability of the ceramic vibrator 10 is extremely degraded. .

The present invention has been made in order to improve the various conventional problems as described above, the purpose of which is, the contact of the integrated measuring terminal which is in contact with the one side electrode pattern of the piezoelectric element on one side of the ceramic piezoelectric element, the electrode pattern is formed on each side of the cross The other electrode pattern of the piezoelectric element is connected to each other by a measuring pin connected to the measuring device as a measuring line, so that when the piezoelectric element of the ceramic vibrator is measured, the ceramic is simply irrespective of the orientation according to the electrode pattern of the ceramic piezoelectric element. By measuring the ceramic piezoelectric element of the vibrator, the workability is further improved. As a result, the defect rate of the ceramic vibrator is reduced, and the overall productivity is improved by improving the reliability of the product, while the ceramic is easily manufactured and installed due to the simple structure. To provide piezoelectric element measuring device of oscillator There is.

1 is a schematic perspective view showing a general ceramic vibrator

2 is a schematic perspective view showing a piezoelectric element of a general ceramic vibrator

Figure 3 is a schematic configuration diagram showing a piezoelectric element measuring apparatus of a conventional ceramic vibrator

4 is a schematic perspective view showing a ceramic vibrator according to the present invention

5 is a schematic configuration diagram showing a piezoelectric element measuring apparatus of a ceramic vibrator of the present invention

* Description of the symbols for the main parts of the drawings *

100: ceramic vibrator 110: ceramic piezoelectric element

120, 120 ': electrode pattern 130: lead frame

150: measuring device 151: measuring terminal

152, 152 ': Measuring pin 153, 153': Measuring line

Technical means of the present invention for achieving the above object, in the ceramic oscillator is mounted on the substrate by soldering coupled to the lead frame ceramic piezoelectric elements cross-electrode pattern on each side, one side electrode of the piezoelectric element An integrated measuring terminal in contact with the pattern is positioned on one side of the piezoelectric element, and measuring pins in contact with the other electrode pattern of the piezoelectric element and connected to each other are positioned on the other side of the piezoelectric element, and the measuring terminal and the measuring pin are measured By providing a piezoelectric element measuring device of a ceramic vibrator consisting of a structure connected to the measuring line to the device.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a schematic perspective view showing a ceramic vibrator according to the present invention, Figure 5 is a schematic configuration diagram showing a piezoelectric element measuring device of the ceramic vibrator of the present invention, of the ceramic piezoelectric element 110 of the ceramic vibrator 100 On both sides, a ceramic piezoelectric element 110 in which vibration (resonance frequency) is generated between the central electrode patterns 120 and 120 'of the piezoelectric element 110 is soldered and coupled to the lead frame 130, and then the substrate The ceramic vibrator 100 is mounted on the 140.

In addition, in order to measure electrical characteristics of the ceramic piezoelectric element 110, an integrated measuring terminal 151 contacting the electrode pattern 120 formed on one side of the piezoelectric element 110 is positioned to one side. Measuring pins 152 and 152 'contacting and interconnecting the electrode pattern 120' formed on the other side of the piezoelectric element 110 positioned on the other side of the measuring terminal 151 are located on the other side, and the measuring terminal 151 and the measuring pins 152 and 152 'are each connected to the measuring lines 153 and 153' drawn out from the measuring device 150.

Referring to the operation of the present invention with the above structure is as follows.

4 to 5, the ceramic vibrator 100, which is an electronic component that performs a function of being used as an operation source of a reference signal of a microprocessor using the piezoelectric effect of the ceramic, that is, the mutual conversion function of electrical and mechanical energy. After the electrode patterns 120 and 120 ′ are formed on both sides of the ceramic piezoelectric element 110, the electrical patterns of the piezoelectric element 110 are intersected on both sides of the piezoelectric element 110. Measuring device 150 that can be easily measured irrespective of the orientation of the electrode patterns 120, 120 'is as follows.

On both sides of the ceramic piezoelectric element 110, electrode patterns 120 and 120 'are formed to cross each other to generate vibration (resonant frequency), and the piezoelectric element 110 is soldered and coupled to the lead frame 130. It is mounted on the substrate 140 and provided as a ceramic vibrator 100, the measuring terminal 151, which is integral to measure the electrical characteristics of the ceramic piezoelectric element 110, one side of the piezoelectric element 110. In contact with the electrode pattern 120 formed in the.

In this case, the measuring terminal 151 is formed integrally, so that even if the electrode pattern 120 is formed on one side of the piezoelectric element 110, the measuring terminal 151 is in intimate contact to form the electrode pattern 120. Contact measurements can be made easily regardless of position.

Meanwhile, the measurement pins 152 and 152 'are connected to the electrode patterns 120' formed on the other side of the piezoelectric element 110 positioned on the other side of the measurement terminal 151, thereby measuring the measurement pins 152. ) 152 'are connected to each other so that the electrode pattern 120' of the piezoelectric element 110 is in contact with at least one of the measuring pins 152 and 152 'of the measuring pins so as to contact the electrode pattern 120'. Measurement is easy regardless of the formation position.

Accordingly, the measuring terminal 151 and the measuring pins 152 and 152 'which are in simple contact with the electrode patterns 120 and 120' of the piezoelectric element 110 are measured by the measuring lines 153 and 153 '. By being connected to each of the 150, the operator can easily measure the piezoelectric element 110 of the ceramic vibrator 100.

Thus, according to the piezoelectric element measuring apparatus of the ceramic oscillator of the present invention, when measuring the piezoelectric element of the ceramic vibrator, it is easy to measure the ceramic piezoelectric element of the ceramic vibrator regardless of the directionality according to the electrode pattern of the ceramic piezoelectric element. Further improved, thereby reducing the defect rate of the ceramic vibrator to improve the overall productivity by improving the reliability of the product, while the simple structure has an excellent effect that is easy to manufacture and installation.

Claims (1)

In the ceramic vibrator 100, the ceramic piezoelectric element 110 having the electrode patterns 120 and 120 ′ intersected on both sides is soldered to the lead frame 130 and mounted on the substrate 140. An integrated measuring terminal 151 which is in contact with one electrode pattern 120 of the piezoelectric element 110 is positioned to one side of the piezoelectric element 110, and the other electrode pattern 120 ′ of the piezoelectric element 110. Measuring pins 152 and 152 'contacting and connected to each other are positioned at the other side of the piezoelectric element 110, and the measuring terminal 151 and the measuring pins 152 and 152' are connected to the measuring device 150. Piezoelectric element measuring apparatus of a ceramic vibrator, characterized in that the structure is connected to the measuring line (153) (153 ').