JPH0936451A - Mounting structure for piezoelectric transformer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a mounting structure for piezoelectric transformer having improved supporting structure for piezoelectric transformer in which the labor can be saved in the work for fixing a terminal to a piezoelectric transformer element. SOLUTION: The mounting structure for piezoelectric transformer employs a spacer 21. The spacer 21 is provided with protrusions 23, 26 for holding a piezoelectric transformer element 11 at the node of vibration, and a lead terminal 27 to be connected with the electrode 17 of piezoelectric transformer element 11. After the piezoelectric transformer element 11 is positioned on the spacer 21, the lead terminal 27 and the electrode 17 of element, positional relationship thereof is determined already, can be connected by soldering, for example. Consequently, the labor for fixing the lead terminal 27 can be saved.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mounting structure for mounting a piezoelectric transformer on a substrate or the like. In particular, the present invention relates to a piezoelectric transformer mounting structure in which the work of attaching the lead terminals to the piezoelectric transformer body can be saved and the supporting structure of the piezoelectric transformer body is improved.

[0002]

2. Description of the Related Art A piezoelectric transformer boosts pressure by utilizing mechanical vibration of a piezoelectric transformer body made of piezoelectric ceramics. That is, a high-frequency voltage (input voltage) equal to the mechanical natural frequency of the same element is applied to a part of the piezoelectric transformer element to vibrate the piezoelectric transformer element in a resonance state, and the piezoelectric voltage generated by this vibration (output voltage ) Take out. Therefore, when the piezoelectric transformer is mounted, it is necessary to support a portion of the piezoelectric transformer element that serves as a vibration node so as to prevent the vibration of the piezoelectric transformer element as much as possible.

FIG. 4 is an exploded perspective view showing a mounting structure of a piezoelectric transformer proposed in Japanese Patent Application No. 6-246701 (the same applicant as the present application). The mounting structure of the piezoelectric transformer of this embodiment has a structure in which the piezoelectric transformer element 11 is mounted on the substrate 131.
1 is attached, and the case 1 is mounted on the piezoelectric transformer body 111.
It is structured to cover 01.

The piezoelectric transformer element 111 is a relatively thin plate-shaped (length L) piezoelectric ceramic sintered body. Layered input electrodes 117 are provided so as to face each other on the front and back surfaces of the right half of the piezoelectric transformer element 111. On the left end face of the piezoelectric transformer element, a layered output electrode 113 is also provided.
Is provided. An output lead wire 115 for taking out an output is soldered to the output electrode 113. The piezoelectric transformer element body 111 is set on the substrate 131 with the longitudinal direction L being horizontal and the longitudinal direction of the cross section being vertical.

The piezoelectric transformer 111 has a quarter length from both ends.
The part that goes inside L is supported by the clip terminal 121 and the lead terminal 125. Clip terminal 121
Is a rod-shaped object that is bifurcated. By sandwiching the piezoelectric transformer element body 111 between the two forks, the piezoelectric transformer element body 111
Soldered to. The lead terminal 125 is two rods, each of which is soldered to the input electrode 117 on the surface of the piezoelectric transformer element 111.

Clip terminal 121 and lead terminal 125
When the piezoelectric transformer element body 111 is set on the substrate 131, the legs of the are inserted into the terminal holes 135 and the terminal holes 137 provided in the substrate 131. The foot of each terminal is soldered on the lower surface side of the board 131.

The case 101 is an elongated hollow rectangular parallelepiped whose bottom surface is removed. On the inner top surface of the case 101,
A support portion 103 for the piezoelectric transformer element is provided. The support portion 103 is shaped so as to support the piezoelectric transformer body 111 by enclosing it in the upper portion. Support part 10
Two 3 are provided at a distance of 1/2 L in the longitudinal direction of the case 101, and support a portion (immediately above the clip terminal 121 or the lead terminal 125) that serves as a vibration node of the piezoelectric transformer element 111. Four protrusions 105 are provided on the lower end of the case 101. These protrusions 105
Fits into the case set hole 133 of the board 131 to fix the case 101 and the board 131.

[0008]

In the mounting structure of the piezoelectric transformer described above, the lead terminals and the clip terminals must be attached to the piezoelectric transformer body one by one by soldering or adhesive. It took a lot of work. Further, when mounting on the substrate 131, a gap may open between the support portion 103 inside the case 101 and the upper end of the piezoelectric transformer element 111, and it is necessary to pay attention to prevent it.

It is an object of the present invention to provide a piezoelectric transformer mounting structure in which the work of attaching the lead terminals to the piezoelectric transformer body can be saved and the supporting structure of the piezoelectric transformer body is improved.

[0010]

In order to solve the above problems, a piezoelectric transformer mounting structure of the present invention is a mounting structure for mounting a piezoelectric transformer on a substrate or the like; Retaining protrusion that holds the part that becomes the node of
Also, the piezoelectric transformer element is characterized in that the piezoelectric transformer element is installed on a spacer made of an insulator, to which a lead terminal connected to the piezoelectric transformer element electrode is attached.

[0011]

After the piezoelectric transformer element is positioned on the spacer, the lead terminals whose positional relationship has already been determined can be connected to the electrodes of the piezoelectric transformer element by soldering or the like. Therefore, it is not necessary to attach the lead terminal, and at the same time, the work is suitable for automation due to the characteristics of the work.

[0012]

Embodiments of the present invention will be described below. FIG.
It is an exploded perspective view showing a mounting structure of a piezoelectric transformer concerning one example of the present invention. As compared with the conventional example of FIG. 4, the feature is that the spacer 21 exists. That is, the piezoelectric transformer body 11 is set on the spacer 21 and then mounted on the substrate 41.

The spacer 21 has a plate-shaped body plate 22. Two holding protrusions 23, 26 are provided on the main body plate 22.
Is provided. The holding protrusions 23 and 26 are portions (1 from the end in the longitudinal direction) that serve as nodes of vibration of the piezoelectric transformer element 11.
/ 4 part) is retained. The output-side holding projection 23 includes a semi-cylindrical projection 25 extending in the width direction of the main body plate 22, and a sandwiching portion 24 that is upright on both sides thereof like cat ears. The lower end surface of the piezoelectric transformer element body 11 is placed on the semi-cylindrical projection 25, and both side surfaces of the piezoelectric transformer element body 11 are sandwiched by the holding portions 24.

The input-side holding projection 26 is provided at the central portion of the main body plate 22 in the width direction, and is also in the shape of a heap. Two input side lead terminals 27 are attached to both sides of the input side holding projection 26 in such a manner as to be planted in the main body plate 22. The input-side holding protrusion 26 and the input-side lead terminal 27 hold the piezoelectric transformer element 11 in the same manner as the output-side holding protrusion 23. The distance between the two input side lead terminals 27 is almost the same as the thickness of the piezoelectric transformer element 11. The upper end of the input side lead terminal 27 and the input side electrode 17 of the piezoelectric transformer element 11 are soldered after assembly. The lower part of the input side lead terminal 27 passes through the lead terminal hole 45 formed in the board 41 and is soldered to the printed wiring on the back side of the board 41.

Examples of means for attaching the input side lead terminal 27 to the spacer body plate 22 include a method of implanting (inserting) by a press and a method of mounting the lead terminal 27 in a mold when the spacer 21 is molded (plastic molding). Either method of placing and embedding can be adopted.

At the periphery of the body plate 22 of the spacer 21,
A stepped fitting portion 29 is formed. The lower end of the case 1 fits into the fitting portion 29, and the case 1 is locked to the spacer 21. At this time, the support portion 3 in the upper portion of the case 1 abuts and supports the portion of the piezoelectric transformer element body 11 that serves as a node of vibration. Therefore, if the case 1 and the spacer 21 are firmly assembled, there will be no gap between the support portion 3 of the case 1 and the piezoelectric transformer element 11. Further, at the time of resin potting which is the final mounting step, the resin does not enter the case 1 from between the case 1 and the spacer 21.

A positioning protrusion 31 is provided on the back side of the spacer body plate 22. This positioning protrusion 31
Fit into the positioning hole 43 opened in the board 41,
It serves to position and fix the spacer 21.

A notch 5 is formed at the lower left end of the case 1. The output lead wire 15 connected to the output side electrode 13 of the piezoelectric transformer element 11 passes through the notch 5.

The steps of assembling the mounting structure of the piezoelectric transformer shown in FIG. 1 are summarized as follows. The piezoelectric transformer body 11 is fitted into the spacer 21. The input side electrode 27 is soldered. The case 1 is fitted into the spacer 21 to cover the piezoelectric transformer body 11. At this time, the output lead wire 15 is taken out from the notch 5 in the case. Spacer 21, piezoelectric transformer element 11, case 1
The assembly of is set on the substrate 41. In this way, the piezoelectric transformer body 11 is surrounded by the case 1, and only the lead terminals 27 necessary for electrical connection with the outside come out of the case 1. As if electronic parts are mounted, the electronic circuit is mounted. It can be mounted on the substrate 41.

FIG. 2 is a cross-sectional view of the periphery of the lead terminal of the piezoelectric transformer mounting structure according to another embodiment of the present invention.
This figure shows the state during assembly (not the final appearance).

One of the features of the embodiment of FIG. 2 is that the bases of the two lead terminals 27 'are connected by the frame 55. This frame 55 finally has the V notch 5
It is broken off at part 3. Due to the presence of the frame 55,
The two lead terminals 27 'can be handled together.
For example, when the lead terminal 27 'is set in the mold for molding the spacer 21, the lead terminal 27' can be set by one operation. Therefore, the processing cost of the spacer is reduced. The lead terminal 27 'is attached (soldered) to the piezoelectric transformer body 11 with the frame 55 present, and then the frame 55 is broken and removed, and the lead terminal 27' is put through the lead terminal hole 50 of the spacer 22 to be assembled. You can also

The second feature of the embodiment of FIG. 2 is that a step 57 is formed inside the lead terminal 27 '.
The piezoelectric transformer element body 11 can be held by placing the lower end of the piezoelectric transformer element body 11 on this step 57.
That is, in this embodiment, the lead terminal 27 'also serves as the input side holding protrusion.

FIG. 3 is an exploded perspective view showing the structure of the output-side electrode portion of the piezoelectric transformer mounting structure according to another embodiment of the present invention. The feature of the embodiment shown in FIG. 3 is that the lead terminal 61 is also provided near the output side electrode 13 of the piezoelectric transformer element 11. Output lead wire 15 to lead terminal 6
By soldering or wrapping (wrapping) to 1, the output side can also be taken out as a lead terminal outside the case (under the spacer). In the case of soldering, the lead terminal 61
A pad (a flat portion for receiving solder) may be provided at the end of the.

Examples of materials and manufacturing methods for each component of this embodiment are as follows. Case 1, spacer 21: An injection molded product such as acrylic resin, ABS resin, polycarbonate resin, or the like. Terminal 27: A metal material such as phosphor bronze. Substrate 41: A substrate made of ceramics, glass epoxy, or the like. Potting: A resin such as urethane, silicone or epoxy is used.

[0025]

As is apparent from the above description, the piezoelectric transformer mounting structure of the present invention exhibits the following effects. The work of attaching the lead terminals to the piezoelectric transformer body becomes easy. Further, it becomes easy to mechanize the work. The assembly of the case, the piezoelectric transformer element, and the spacer can be mounted on the substrate as if it were one electronic component. By fitting and locking the case and the spacer, the resin does not flow into the case during the resin potting.

[Brief description of drawings]

FIG. 1 is an exploded perspective view showing a mounting structure of a piezoelectric transformer according to an embodiment of the present invention.

FIG. 2 is a sectional view around a lead terminal of a piezoelectric transformer mounting structure according to another embodiment of the present invention.

FIG. 3 is an exploded perspective view showing a structure of an output-side electrode portion of a piezoelectric transformer mounting structure according to another embodiment of the present invention.

FIG. 4 is an exploded perspective view showing a mounting structure of a piezoelectric transformer proposed in Japanese Patent Application No. 6-246701.

[Explanation of symbols]

1 Case 3 Support 5 Cutout 11 Piezoelectric Transformer Element 13 Output Electrode 15 Output Lead Wire 17 Input Electrode 21 Spacer 22 Body Plate 23 Output Side Holding Protrusion 24 Clamping Section 25 Kamaboko Type Protrusion 26 Input Side Holding Protrusion 27 Input Lead terminal 29 Fitting part 31 Positioning protrusion 41 Board 43 Positioning hole 45 Lead terminal hole 50 Lead terminal hole 53 V notch 55 Frame 57 steps 59 Solder 61 Output side lead terminal

Claims (7)

[Claims] 1. A mounting structure for mounting a piezoelectric transformer on a substrate or the like; a holding projection for holding a portion serving as a node of vibration of the piezoelectric transformer element, and a piezoelectric transformer element electrode. A mounting structure of a piezoelectric transformer, wherein a piezoelectric transformer body is installed on a spacer made of an insulator, to which a lead terminal is attached. 2. The mounting structure for a piezoelectric transformer according to claim 1, wherein the lead terminal is embedded in the spacer by pressing. 3. The piezoelectric transformer mounting structure according to claim 1, wherein the spacer is a plastic molded product, and the lead terminal is embedded in the spacer. 4. The lead terminal is composed of two rod-shaped portions which stand upright so as to sandwich the front and back surfaces of the piezoelectric transformer element. After the lead terminal is pressed into a spacer, both members are separated. The mounting structure for a piezoelectric transformer according to claim 1, wherein 5. The mounting structure for a piezoelectric transformer according to claim 1, wherein the spacer is further provided with a lead terminal connected to an output electrode of the piezoelectric transformer element. 6. A case is provided to cover the piezoelectric transformer element body, and a portion that serves as a vibration node of the element body is supported by the case, and a connecting portion between the case and the spacer is provided. The mounting structure for a piezoelectric transformer according to claim 1, wherein said is sealed by resin potting. 7. The piezoelectric transformer mounting structure according to claim 6, wherein a fitting and locking means is provided between the peripheral edge of the spacer and the lower edge of the case.