KR200253846Y1 - A wax dotting of the piezo-resonator component - Google Patents

Abstract

The present invention relates to wax doping of piezoelectric resonator parts, and its purpose is to vary the size of the wax doping for the cavity formation of the piezoelectric resonator parts according to the size of the piezoelectric element and the shape of the terminal parts coupled thereto. By performing wax dotting of piezoelectric resonant parts, the vibration characteristics of piezoelectric resonant parts can be improved, and the reliability and productivity of the piezoelectric resonant parts can be further improved. A wax coating of piezoelectric resonant parts is provided.

Technical gist for achieving the above object, the piezoelectric element 11 is printed so that the electrodes (11a) (11b) on both sides of the overlapping in the center; And a terminal component (20) having a terminal (21) and a lead (22) extending downwardly and connected as a frame (23). If the width of the dotting (W) size is S, the thickness is X, and the vertical width is y, then S = R + N * 2 <k, X ≤ 4-t, y ≤ 4-h Characterized by satisfying.

Description

A wax dotting of the piezo-resonator component

The present invention is a piezoelectric device that allows the wax dotting size to be adjusted according to the piezoelectric element during the manufacturing process of the piezoelectric resonant part using the piezoelectric effect, during the cavity forming wax doping operation for the vibration space generated at both side electrode vibration parts of the piezoelectric element. The present invention relates to wax doping of a resonant component. In particular, the wax dotting operation of the piezoelectric resonator component is performed by varying the wax dotting size for forming the cavity of the piezoelectric resonator component, thereby providing excellent vibration characteristics of the piezoelectric resonator component. As a result, the product reliability and productivity are further improved, and in particular, the responsiveness according to the production of the customized piezoelectric resonator parts is improved, thereby providing wax coating of the piezoelectric resonator parts to improve product competitiveness.

In general, a piezoelectric element is an electronic component that performs a function of being used as a reference signal operation source of a microprocessor by using the piezoelectric effect of the device, that is, the mutual conversion function of electric and mechanical energy. The demand for the same electronic products is rapidly increasing, and the piezoelectric element electronic parts using the piezoelectric element include the manufacture of a piezoelectric element, an electrode forming process of depositing and patterning electrodes on the surface of the element, and the element. Process of joining the terminal parts to be mounted on the board, and finally finishing process such as wax dotting, epoxy coating, molding process, marking process, and soldering piezoelectric elements, terminal parts, and capacitor devices. It is used as a packaged electronic component by connecting and molding as a coupling means.

Meanwhile, as shown in FIGS. 1 and 2, both side electrodes 121a and 121b of the piezoelectric element 120 coupled to the terminal component 110 of the piezoelectric resonance component 100 are centered on the piezoelectric element 120. When the power is applied through the terminal component 110, the vibration is generated in the overlapped electrode portion A, and the external coating material 130 is applied and cured to the piezoelectric resonance component 100. Since the vibration of the electrode portion A becomes less likely to occur, the paste 140 is hardened by the paste state on the electrode portion A, and then the coating material 130 is coated on the outside thereof so that the coating material is above a predetermined temperature. When the 130 is dried, the wax 140 is absorbed into the coating material 130 while the wax 140 is melted into the coating material 130, and thus, the cavity for generating vibrations in the electrode portion A of the piezoelectric resonator part 100. Formation is to be made.

In the wax doping operation of the conventional piezoelectric resonator component related to such a technique, as shown in FIGS. 1 to 3, a predetermined amount of wax 140 is attached to the dotting tip 151 of the dotting machine 150. Then, the piezoelectric element 120 coupled to the terminal component 110 of the piezoelectric resonator component 100 is positioned horizontally, and then the surface of the central portion of the electrode 121a printed on one side of the piezoelectric element 120 is shown. After attaching to the dotting tip 151 of the tinger 150, the molten wax 140 is doped, after a certain time, the dotting tip 151 is raised to attach the wax 140, the piezoelectric resonator component ( Inverting 100 by 180 ° causes the wax 140 of the dotting tip 151 to be lowered to the center of the other electrode 121b of the piezoelectric element 120.

However, in the wax doping operation of the conventional piezoelectric resonator component, as shown in FIG. 3, electrode vibration is performed at the center portions of both side electrodes 121a and 121b of the piezoelectric resonator component 100. Is generated, and thus wax dosing is performed on the electrode vibrating portion. In the related art, the wax doping is not always performed according to the electrode vibrating portion according to the piezoelectric resonator part 100, and always a constant amount of wax 140 is doped. As a result, the wax dotting is not performed according to the vibration characteristics of the piezoelectric resonator component 100, so that the frequency characteristics of the piezoelectric resonator component 100 are deteriorated, and a product corresponding to a custom piezoelectric resonator component having a specific frequency is desired. There are various problems such as weakness and, therefore, product productivity of the piezoelectric resonance component 100 is lowered.

The present invention has been made to improve the above-described problems, the purpose of which is to vary the size of the wax dotting for the cavity formation of the piezoelectric resonant component according to the size of the piezoelectric element, and the shape of the terminal component to be coupled thereto When the wax doping operation of the piezoelectric resonator parts is performed, the vibration characteristics of the piezoelectric resonator parts are excellent, and thus the reliability and productivity of the piezoelectric resonator parts are further improved. The present invention provides a wax coating of piezoelectric resonator parts with improved competitiveness.

1 is a perspective view showing a general piezoelectric resonance component

2 (a) and 2 (b) are schematic diagrams for explaining cavity formation of a general piezoelectric resonator component.

Figure 3 is a flow chart for explaining the wax dotting for forming the cavity of the conventional piezoelectric resonator parts

Figure 4 (a) and (b) is an overall configuration showing the wax coating of the piezoelectric resonator component of the present invention

Explanation of symbols on the main parts of the drawings

Piezoelectric Resonance Components

11a, 11b .... Piezoelectric element electrode 20 .... Terminal parts

21 ... terminal

The present invention as a technical means for achieving the above object, the piezoelectric element is printed so that the electrode is overlapped in the central portion on both sides; And a terminal part having a terminal facing the piezoelectric element so as to be coupled inwardly, and a terminal part having a lead extending downwardly and connected as a frame, wherein the piezoelectric resonator part comprises: If the width of the size of the wax dotting (W) to be doted is S, the vertical width is X, y is the height, the wax dotting (W) satisfies the following formula, S = R + N * 2 <k .... (1), X ≤ 4-t .... (2), y ≤ 4-h ..... (3) where R is the electrode overlap of the piezoelectric element , k is the length excluding the soldering portion of the piezoelectric element 11, N is the distance between the electrode overlapping end of the piezoelectric element and the terminal, t is the vertical width of the piezoelectric element, h is a piezoelectric consisting of the height of the piezoelectric element By providing a wax coating of the resonant component.

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

Figure 4 (a) and (b) is an overall configuration showing the wax coating of the piezoelectric resonator component of the present invention.

In addition, the piezoelectric element 11 is printed on both sides so that the electrodes 11a and 11b are overlapped at the center portion, the terminal 21 facing the piezoelectric element 11 so as to be coupled inward, and extends downward. And a piezoelectric resonator component 1 having a terminal component 20 having a lead 22 connected as a frame 23 is provided.

On the other hand, the width of the wax dotting (W) size that is doped on the electrode vibrating portion of the piezoelectric resonator component (1) is referred to as S, the vertical width is X, the height y, the wax doping ( W) satisfies the following formula,

S = R + N * 2 <k .... (1)

X ≤ 4-t .... (2)

y ≤ 4-h ..... (3)

Where R is the electrode overlapping portion of the piezoelectric element, N is the distance between the electrode overlapping end portion of the piezoelectric element and the terminal, t is the vertical width of the piezoelectric element, and h is the height of the piezoelectric element.

Referring to the operation and effects of the present invention made of the above configuration is as follows.

As shown in (a) and (b) of FIG. 4, in the manufacturing process of the piezoelectric resonator component 1, at the central electrode vibration portion of the electrodes 11a and 11b overlapped on both sides of the piezoelectric element 11. Vibration is generated, that is, the frequency characteristics of the piezoelectric resonator component 1 are determined according to the electrode vibration portion of the piezoelectric element 11, which is the interval between the overlapping portions of the electrodes 11a and 11b or the piezoelectric element. The size of the wax dotting (W) for forming the cavity of the piezoelectric resonator component (1) is determined according to the height, width, length, etc. of the (11), and the piezoelectric element to accurately maintain the frequency characteristics of the piezoelectric resonator component (1) The wax dotting (W) according to the size of the element 11 is as follows,

First, in the wax dotting size W to be doped on the vibrating electrode portion, the width is S, the height is X, and the height is y. Ting (W) size satisfies the following formula,

S = R + N * 2 <k .... (1)

X ≤ 4-t .... (2)

y ≤ 4-h ..... (3)

In this case, R is the length of the overlapping portion of the electrodes 11a and 11b of the piezoelectric element 11, N is the length between the electrode overlapping portion of the piezoelectric element 11 and the terminal 21, k is the piezoelectric element 11 Is the length excluding the soldering portion, t is the vertical width of the piezoelectric element 11, and h is the height of the piezoelectric element 11.

At this time, an important factor that determines the frequency characteristic of the piezoelectric resonator component 1 is R, which is the length of the overlapping portion of the electrodes 11a and 11b of the piezoelectric element 11, which is the length of the overlapping portion of the electrodes 11a and 11b. This is because the oscillation frequency is wrong.

On the other hand, the electrode overlapping portion R of the piezoelectric element 11 is usually made of 2,0-3.0 mm, and N is 1.4 mm. Therefore, in the first equation, the width S of the wax dotting W is formed to be 4.8 to 5.8 mm, and likewise, it can be seen that K is formed to be 4.9 mm or more than 5.9 mm.

In addition, in the second equation, when the vertical width t of the piezoelectric element 11 is 0.3 mm, it can be seen that the vertical width X of the wax dotting W is formed to be 3.7 mm or less.

In addition, in the third equation, when the height h of the piezoelectric element 11 is 1.0 mm, it can be seen that the height y of the wax dotting W is 3.0 mm or less.

Therefore, the wax dotting operation of the piezoelectric resonator component 1 may be performed by setting the size of the wax dotting (W) of the piezoelectric resonator component 1 satisfying the washing time according to the size of the piezoelectric element 11. By doing so, the manufacturing process of the piezoelectric resonator component 1 can be made smooth, and in particular, product responsiveness to a specific custom component can be enhanced.

According to the wax dotting of the piezoelectric resonator component according to the present invention, the size of the wax doping for the cavity formation of the piezoelectric resonator component is variably set according to the size of the piezoelectric element and the shape of the terminal component coupled thereto. By performing wax dotting of the resonant parts, the vibration characteristics of the piezoelectric resonator parts are excellent, and thus the reliability and productivity of the piezoelectric resonator parts can be further improved. It works.

Claims (2)

A piezoelectric element 11 printed on both sides thereof so that the electrodes 11a and 11b overlap at the center portion; And a terminal component (20) having a terminal (21) facing the piezoelectric element (11) to be coupled inwardly and a lead (22) extending downwardly and connected as a frame (23). In the resonant component 1, If the width of the wax dotting (W) size that is doped on the electrode vibrating portion of the piezoelectric resonator component (1) is S, the vertical width is X, the height y, the wax dotting (W) Satisfies the following formula, S = R + N * 2 <k .... (1) X ≤ 4-t .... (2) y ≤ 4-h ..... (3) Where R is the length of the electrode overlapping portion of the piezoelectric element, N is the distance between the electrode overlapping end of the piezoelectric element and the terminal, k is the length excluding the soldering portion of the piezoelectric element 11, and t is the length of the piezoelectric element. Wax dotting of the piezoelectric resonator component, characterized in that the vertical width, h is made of the height of the piezoelectric element The wax doping of the piezoelectric resonator component according to claim 1, wherein the electrode overlapping portion R of the piezoelectric element 11 is comprised of 2,0-3.0 mm.