JPS6367908A - Electric parts having two-terminal type piezoelectric resonance element and its production - Google Patents

Abstract

PURPOSE:To thin electric parts and to automate its production by forming a piezoelectric resonance element having an electrode, a pair of cup terminals having cup-like holding parts and a circuit substrate constituting an optional circuit on the outside of the holding parts of the pair of cup terminals and integrally forming the circuit substrate along the piezoelectric resonance element. CONSTITUTION:An electrode 22 is formed on one main face of the piezoelectric resonance element 20 from its one end up to a fixed position. The electrode 22 is similarly formed on the other main face of the element 20 from the other end up to the fixed position. The electrode 22 of the element 20 is electrically connected to the cup-like holding parts 16 by soldering for instance. A capacitor substrate 24 is constituted by forming a pair of electrodes 26a, 26b on both the longitudinal sides of one main face of the plate-like dielectric substance. The electric parts 10 are thinned as compared to parts obtained by arranging a piezoelectric resonance element 20 and a capacitor substrate 24 in the longitudinal direction of a cup terminal 12. Thereby, the fitting space of the electric parts 10 at the time of integrating the parts 10 in a device can be reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an electronic component having a two-terminal type piezoelectric resonant element and a method for manufacturing the same, and in particular to a two-terminal type piezoelectric resonant element used in a clock element of a computer oscillation source, etc. The present invention relates to an electronic component having a shaped piezoelectric resonant element and a method for manufacturing the same.

(Prior Art) FIG. 4 is a perspective view showing an electronic component having a conventional two-terminal piezoelectric resonant element. In this electronic component 1, a piezoelectric resonant element 4 is held in a cup-shaped holding part 3 with a cup terminal 20. An electronic circuit board 5 is connected in line with the piezoelectric resonant element 4 in the longitudinal direction of the terminal. In such an electronic component 1, for example, an exterior material (not shown) is provided around the cup-shaped holding portion 3, the piezoelectric resonant element 4, and the electronic circuit board 5.
is formed.

(Problems to be Solved by the Invention) In conventional electronic components having two-terminal piezoelectric resonant elements, long cup terminals are used because the piezoelectric resonant elements and the electronic circuit board are arranged in the longitudinal direction of the cup terminals. There is a need. Therefore, when this electronic component is attached to a printed circuit board or the like, a large installation space is required due to its height.

Therefore, the main purpose of this invention is to reduce the installation space by reducing the height.
An object of the present invention is to provide an electronic component having a two-terminal piezoelectric resonant element.

Another object of the present invention is to provide a manufacturing method for manufacturing an electronic component having a two-terminal piezoelectric resonant element, which can reduce the height of the electronic component and automate the manufacturing process. be.

(Means for Solving the Problems) The first invention includes a piezoelectric resonant element having an electrode, and a cup-shaped holding part arranged such that its openings face each other in order to hold the piezoelectric resonant element. , a pair of cup terminals to which electrodes of the piezoelectric resonant element are electrically connected to the holding portion;
A two-terminal piezoelectric resonant element that includes a circuit board that configures an arbitrary circuit that is electrically connected to the outer surface of the holding portion of the pair of cup terminals, and a terminal that is electrically connected to the circuit board. It is an electronic component with

The second invention includes the steps of preparing a piezoelectric resonant element having an electrode, preparing a cup terminal having a cup-shaped holding part, preparing a circuit board configured with an arbitrary circuit, and providing an electrical connection to the circuit board. a step of preparing a terminal for electrical connection to the circuit board, a step of electrically connecting the terminal to the circuit board, a step of holding the piezoelectric resonant element in a cup-shaped holding part, and a step of holding the piezoelectric resonant element in the cup-shaped holding part and the piezoelectric resonant element. This is a method of manufacturing an electronic component having a two-terminal piezoelectric resonant element, including the steps of electrically connecting the circuit board to the electrode of the holding part, and electrically connecting the circuit board to the outer surface of the holding part.

(Effects of the Invention) According to the present invention, it is possible to reduce the height of an electronic component having a two-terminal piezoelectric resonant element. Therefore, the mounting space for this electronic component is reduced.

Furthermore, since the circuit board is integrated along the piezoelectric resonant element, the mechanical strength of the piezoelectric resonant element is improved.

Furthermore, by using the method for manufacturing an electronic component having a two-terminal piezoelectric resonant element, manufacturing of a low-profile electronic component is automated.

The above objects, other objects, features and advantages of the present invention will become more apparent from the following detailed description of embodiments with reference to the drawings.

(Embodiment) FIG. 1 is a perspective view showing an embodiment of the present invention. The electronic component 10 having this two-terminal piezoelectric resonant element includes a cup terminal 12 . As shown in FIG. 2, a thin bar-shaped lead portion 14 is formed on one longitudinal side of the cup terminal 12, and a cup-shaped holding portion 16 with a semicircular cross section is formed on the other side. A stopper portion 18 for holding a piezoelectric resonant element, which will be described later, is provided between the lead portion 14 and the holding portion 16.
is formed. This stopper portion 18 is formed by bending the lead portion 14 extending from the holding portion 16. The openings of the two cup-shaped holding parts 16 face each other, and the piezoelectric resonant element 20 is held in these holding parts.

An electrode 22 is formed on one principal surface of the piezoelectric resonant element 20 from one end to a certain position. Similarly, an electrode 22 is formed on the other main surface of the piezoelectric resonant element 20 from the other end to a certain position. Then, the electrode 22 of the piezoelectric resonant element 20 and the cup-shaped holding part 16 are electrically connected, for example, by soldering.

A capacitor board 24 is electrically connected to the outer surface of the holding portion 16 of the cup terminal 12 by, for example, soldering. The capacitor substrate 24 has a pair of electrodes 26a, 26a formed at both longitudinal ends of one principal surface of a plate-shaped dielectric. Further, an electrode 26 is provided at the center of the other main surface of the dielectric.
b is formed. Then, the electrodes 26a, 26a and the outer surface of the holding portion 16.16 of the pair of cup terminals 12.12 are electrically connected. Further, a terminal 28 is connected to the central electrode 26b of the capacitor substrate 24.

This electronic component 10 has a lower height than one in which the piezoelectric resonant element 20 and the capacitor substrate 24 are arranged in the longitudinal direction of the cup terminal 12. Therefore, this electronic component 10
When incorporated into a device, its installation requires less space.

Next, a method for manufacturing an electronic component having this two-terminal piezoelectric resonant element will be explained.

First, as shown in FIG. 3A, a pair of cup terminals 12 and terminals 28 are prepared. A pair of cup terminals 12 and terminals 28 are integrally formed in a hoop 30. Furthermore, a piezoelectric resonant element 20 and a capacitor substrate 24 are prepared.

Then, as shown in FIG. 3B, the electrodes 26a, 26a of the capacitor substrate 24 are applied to the outer surface of the holding portion 16.16 of the cup terminal 12.12, and the terminal 28 is placed on the electrode 26b of the capacitor substrate 24, for example. Electrically connected by soldering etc. Next, as shown in Figure 3C,
A piezoelectric resonant element 20 is inserted into the holding part 16.16 of the cup terminal 12.12. At this time, the piezoelectric resonant element 20 is held by the stopper portion 18.18 of the cup terminal 12.12. Then, the electrode 22.22 of the piezoelectric resonant element 20 and the cup-shaped holding portion 16.16 are electrically connected, for example, by soldering.

Next, the electrodes 26a, 26a of the capacitor substrate 24 are electrically connected to the outer surface of the holding portion 16.16 of the cup terminal 12.12. In this state, as shown in FIG. 3D, when the heated and liquid wax 32 is dropped from one side of the piezoelectric resonant element 20, the wax 32 is removed from the piezoelectric resonant element 2.
It also wraps around to the opposite side of 0 and solidifies. In the conventional electronic component 1 shown in FIG. 4, wax was attached to both sides of the piezoelectric resonant element 4, but in the case of FIG. 3D, since the gap between the piezoelectric resonant element 20 and the capacitor substrate 24 is narrow, Due to this phenomenon, wax can be attached to the circumference of the piezoelectric resonant element 20 from one side thereof.

Then, a cup-shaped holding portion 16. An exterior material (not shown) is placed around the piezoelectric resonant element 20 and the capacitor substrate 24.
is formed. This exterior material is made of porous synthetic resin such as epoxy resin. By heating this, the synthetic resin hardens, and the wax 32 is liquefied and absorbed into the synthetic resin. Therefore, a cavity is formed between the exterior material and the piezoelectric resonant element 20 in the area where the wax was attached. This cavity becomes a gap for vibration of the piezoelectric resonant element 20.

Next, the lead portion 14.14 of the cup terminal 12.12 and the terminal 28 are cut off from the tool 130, and the electronic component 10.
is formed.

In this embodiment, the capacitor board 24 is attached to the outer surface of the cup-shaped holding part 16, but other electronic components such as resistors may be used, or a circuit board combining these may also be used. Further, as a method for electrically connecting, other than soldering, other conductive bonding materials such as conductive paste may be used. Furthermore, the cup-shaped holding part 16 is
In addition to the semicircular cross section, it may be formed in other shapes such as a "U"-shaped cross section or a "R"-shaped cross section.

[Brief explanation of drawings]

FIG. 1 is a perspective view showing an embodiment of the present invention. FIG. 2 is a perspective view showing the cup terminal used in the embodiment shown in FIG. FIGS. 3A to 3D are perspective views showing a manufacturing method for manufacturing this electronic component. FIG. 4 is a perspective view of an electronic component having a conventional two-terminal piezoelectric resonant element. In the figure, 10 is an electronic component having a two-terminal piezoelectric resonant element, 12 is a cup terminal, 16 is a cup-shaped holding part, and 2
0 is a piezoelectric resonant element, 22 is an electrode of the piezoelectric resonant element, 24 is a capacitor substrate, 26a and 26b are electrodes of the capacitor substrate, and 28 is a terminal. No. 1 b+ Tow No. 3A No. 3 [)L'l

Claims (1)

[Scope of Claims] 1. A piezoelectric resonant element having an electrode, comprising a cup-shaped holding part arranged such that openings thereof face each other in order to hold the piezoelectric resonant element, the holding part having a cup-shaped holding part that holds the piezoelectric resonant element. 1 to which the electrodes of are electrically connected
a pair of cup terminals, a circuit board configured with an arbitrary circuit electrically connected to the outer surface of the holding portion of the pair of cup terminals, and a terminal electrically connected to the circuit board; An electronic component with a terminal type piezoelectric resonant element. 2. An exterior material is formed around the cup-shaped holding part, the piezoelectric resonant element, and the circuit board, and a cavity is formed between the piezoelectric resonance element and the exterior material. An electronic component comprising the two-terminal piezoelectric resonant element according to item 1. 3. preparing a piezoelectric resonant element having an electrode; preparing a cup terminal having a cup-shaped holding part; preparing a circuit board configured with an arbitrary circuit; preparing a terminal; electrically connecting the terminal to the circuit board; holding the piezoelectric resonant element in the cup-shaped holding part; and connecting the cup-shaped holding part and the electrode of the piezoelectric resonant element. and electrically connecting the circuit board to the outer surface of the holding part,
A method for manufacturing an electronic component having a two-terminal piezoelectric resonant element. 4. Forming a wax layer around the piezoelectric resonant element after electrically connecting the circuit board to the outer surface of the holding part, and forming a wax layer around the cup-shaped holding part, the piezoelectric resonant element, and the circuit board. 3. The two-terminal device according to claim 3, comprising: forming an exterior material on the exterior material; and absorbing the wax into the exterior material to form a cavity between the piezoelectric resonant element and the exterior material. A method for manufacturing an electronic component having a shaped piezoelectric resonant element.