JP3714408B2 - Piezoelectric vibrator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a piezoelectric vibrator, and more particularly to a piezoelectric vibrator suitable for surface mounting on an external substrate.
[0002]
[Prior art]
Conventionally, there has been known a piezoelectric vibrating piece that obtains a predetermined frequency by applying a driving voltage via an excitation electrode formed on the surface of a piezoelectric material made of a thin plate piece such as quartz.
Such a piezoelectric vibrating piece is housed in a container called a cylinder and is mounted on a substrate as an electronic component as a piezoelectric vibrator, like an IC (Integrated Circuit), a resistor, a capacitor, and the like.
[0003]
However, in the piezoelectric vibrator described above, the shape of the container that accommodates the piezoelectric vibrating piece may be special, or the lead wire must be inserted into a through hole provided in the substrate. There was a problem that surface mounting could not be performed using a mounting machine.
[0004]
In order to solve this problem, there is known a piezoelectric vibrator in which the periphery of a container in which a piezoelectric vibrating piece is accommodated is molded with a resin and can be surface-mounted using an automatic mounting machine.
9 is a schematic plan view of a surface-mountable piezoelectric vibrator, FIG. 10 is a CC cross-sectional view in FIG. 9, FIG. 11 is a bottom view of the piezoelectric vibrator in FIG. These are DD sectional drawings in FIG. FIG. 13 is a perspective view of an electrode terminal in the piezoelectric vibrator, and FIG. 14 is a perspective view of a dummy electrode in the piezoelectric vibrator.
[0005]
As shown in these drawings, in the piezoelectric vibrator 1, a cylinder 2 serving as a container is installed at the center, and a piezoelectric vibrating piece 3 is accommodated in the cylinder 2. In the figure, the cylinder 2 is formed in a cylindrical shape, and a pair of outer leads 4 connected to the piezoelectric vibrating reed 3 are drawn out from one end face thereof.
[0006]
An electrode terminal 5 serving as a lead frame for mounting on an external substrate is provided on the distal end side of the pair of outer leads 4 protruding from the end face of the cylinder 2. The electrode terminal 5 is bent in a crank shape. One end of the electrode terminal 5 serves as a joint portion 5A with the outer lead 4, and the other side serves as a substrate mounting portion 5B. The substrate mounting portion 5B is piezoelectric. It arrange | positions so that it may go to the outward of the vibrator | oscillator 1. FIG. Since there are two outer leads 4 protruding from the cylinder 2, two electrode terminals 5 for the outer leads 4 are also provided.
[0007]
Incidentally, in the cylinder 2, a pair of dummy terminals 6 are provided on the opposite end surface side from which the outer lead 4 protrudes. The dummy terminal is formed by bending a thin sheet metal into a square shape. One end of the dummy terminal is a fixed side 6A to the piezoelectric vibrator 1 and the other side is the same as the electrode terminal 5 in the piezoelectric vibrator 1. The board mounting portion 6B extends outward. By disposing the electrode terminal 5 and the dummy terminal 6 at the corners of the piezoelectric vibrator 1, the piezoelectric vibrator 1 can be reliably mounted on the external substrate.
[0008]
In order to maintain the positional relationship among the cylinder 2, outer lead 4, electrode terminal 5, dummy terminal 6, protect from the outside, and enable mounting on an automatic mounting machine, the main body of the piezoelectric vibrator 1 is The component parts of the piezoelectric vibrator 1 described above are sealed with resin except for the substrate mounting portions of the electrode terminals 5 and the dummy terminals 6.
[0009]
[Problems to be solved by the invention]
However, the piezoelectric vibrator 1 described above has the following problems.
That is, in the conventional piezoelectric vibrator 1, the electrode terminal 5 must be bent in a crank shape, and if there is a large error in the angle or height of the bending, the cylinder 2 may be inclined. The outer shape of the cylinder 2 may be exposed from the lower side of the vibrator main body and short-circuited with the pattern of the mounting substrate. The electrode terminal 5 is welded with an outer lead 4 protruding from the cylinder 2 to a joint portion 5A bent in a crank shape, and a bent portion constituting the crank portion is located at one end portion of the joint portion 5A. For this reason, it has been difficult to apply a large welding jig. For this reason, there has been a problem that it is difficult to apply large energy and pressing force to the outer lead 4 and the joint portion 5A during the welding process.
[ 0010 ]
In recent years, miniaturization of products using electronic components has progressed, and in order to meet this demand, there is a demand for miniaturization of the substrate and consequently reduction of the mounting area of the electronic components. The piezoelectric vibrator 1 has a problem in that the board mounting portions of the electrode terminals 5 and the dummy terminals 6 protrude from the outer edge, and this protruding portion enlarges the board mounting area.
[ 0011 ]
As shown in FIG. 11, although the electrode terminals 5 and the dummy terminals 6 are arranged at the corners of the piezoelectric vibrator 1, the areas of the substrate mounting portions of the electrode terminals 5 and the dummy terminals 6 are not uniform. For this reason, when the piezoelectric vibrator 1 is mounted on the substrate by an automatic mounting machine and then passed through a reflow process, the piezoelectric vibrator 1 moves from a normal position on the substrate due to the difference in the area of the board mounting portion, and thus the conduction failure or the like. There was a possibility that problems such as this could occur.
[ 0012 ]
As a problem unique to the dummy terminal, the board mounting portion 6B of the dummy terminal 6 is formed to be bifurcated after a certain distance from the bending root as shown in FIG. The length of 6B could not be secured sufficiently, and there was a risk that the mounting strength on the substrate would be reduced. The joint 6A also has a simple standing shape as shown in FIG. 14 (FIG. 14). However, the resin for forming the vibrator body is the tip side of the cylinder 2 , that is, the outside of the joint 6A. (In the direction of the arrow), this joining portion 6A becomes a wall, the fluidity of the resin is lowered, and there is a possibility that defects such as sinks and nests occur in the vibrator body. In addition, since the bonding portion 6A of the dummy terminal 6 exists in the resin and the substrate mounting portion 6B is fixed to the substrate side, when an external force is applied to the substrate and the warp is generated, the force due to the warp of the substrate is applied to the bonding portion 6A. There is a possibility that cracks may occur in the vibrator main body. Furthermore, since the cylinder that accommodates the piezoelectric vibrating piece has a cylindrical shape, it easily rolls due to a slight inclination or external force, and as a result, it may be difficult to position the cylinder 2 before resin injection molding.
[0013]
An object of the present invention is to make it possible to apply a large welding jig by paying attention to the above-mentioned conventional problems .
Another object of the present invention is to provide a piezoelectric vibrator that can achieve reduction in mounting area, reliability of mounting on a substrate, and securing of mounting strength.
[0014]
[Means for Solving the Problems]
The piezoelectric vibrator according to the present invention includes a piezoelectric vibrator piece housed in a container in a vibrator body, an electrode terminal that is disposed at a corner of the vibrator body and protrudes from the vibrator body to be mounted on an external substrate. A piezoelectric vibrator provided with a dummy terminal, wherein the container around which the piezoelectric vibrating piece is accommodated is molded with resin, and an outer lead drawn from the piezoelectric vibrating piece and protruding from the container is bent in a crank shape In addition, a joint is formed at the tip of the outer lead, a flat electrode terminal that contacts the joint is disposed below the joint, and a thin portion is formed on the electrode terminal. It was set as the structure which provided the recessed part buried .
In addition, it is desirable that the joint portion be bent to the position of the bottom surface of the container.
[ 0015 ]
In the present invention thus configured, the outer lead drawn out from the piezoelectric vibrating piece and projecting from the container is bent into a crank shape to form a joint at the tip of the outer lead, and the joint is formed below the joint. Since the electrode terminal in contact with the joint portion is arranged and a concave portion embedded in the resin is formed in the electrode terminal, the electrode terminal has no bent portion, and management such as a bending angle and height is unnecessary. can do. Further, the recess for preventing the electrode terminal from being removed may be formed by half punching or etching. Further, since the electrode terminal has a planar shape, there are no obstacles in the vicinity thereof, the electrode for welding can be enlarged, and an external force can be applied to the heating sufficient for welding. Also since it is not possible to project the electrode terminals outward from the junction of the outer lead, the overall length of the piezoelectric vibrator becomes to a size to the tip of the outer lead, it is possible to reduce the size of the piezoelectric vibrator.
[ 0016 ]
If the joint is bent to the position of the bottom surface of the container, the joint serves as a detent for the container, and the container can be prevented from rolling due to external force or inclination. In addition, since the horizontal state of the container is maintained, if such a container is mounted on the electrode terminal or the dummy terminal, a resin corresponding to these thicknesses is uniformly formed on the lower side of the container, and the container is the vibrator main body. It is possible to prevent the outside from being exposed to the outside, and it is possible to prevent a short circuit from occurring due to the container contacting the external substrate.
[ 0017 ]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred specific embodiments of a piezoelectric vibrator according to the present invention will be described in detail with reference to the drawings.
FIG. 1 is a top view showing the structure of the piezoelectric vibrator according to the present embodiment, FIG. 2 is a front view of the piezoelectric vibrator, and FIG. 1A is an overall view of the piezoelectric vibrator. FIG. 2B shows an enlarged view of a portion A in FIG.
[ 0018 ]
As shown in these drawings, in the piezoelectric vibrator 10 according to the present embodiment, a cylinder 12 serving as a container is disposed at the center thereof. The cylinder 12 has a cylindrical outer shape, and a thin plate-shaped piezoelectric vibrating piece 14 capable of generating a predetermined vibration frequency by applying a voltage is accommodated therein.
One end face of the cylinder 12 is an insertion side for inserting the piezoelectric vibrating piece 14 into the cylinder 12, and a pair of outer leads 18 are inserted into the lid 16 that seals the cylinder 12. Then, one end of the outer lead 18 located in the cylinder 12 through the lid 16 is connected to the piezoelectric vibrating piece 14, and is connected to the other end of the outer lead 18 protruding outward from the cylinder 12. A natural frequency is obtained from the piezoelectric vibrating piece 14 accommodated in the cylinder 12 by applying a voltage. The outer lead 18 protruding from the cylinder 12 is bent in a crank shape as shown in FIG. 2, and the tip of the outer lead 18 serves as a joint 19 to be welded. An electrode terminal 20 is provided below the joint portion 19. In FIG. 2, the bending angle of the outer lead 18 may be arbitrarily set in accordance with conditions such as the longitudinal dimension of the piezoelectric vibrator 10 or the shape of the electrode terminal 20.
In the piezoelectric vibrator 10, the periphery of the cylinder 12 is formed of a resin 21. Then, the periphery of the cylinder 12 is molded with a resin 21 so that the piezoelectric vibrator 10 can be mounted on an automatic mounting machine, and can be mounted on an external substrate or welded to an outer lead 18. The electrode terminal 20 is held and a dummy terminal described later is held.
[ 0019 ]
FIG. 3 is a perspective view showing the shape of the electrode terminal, FIG. 3A is a single shape of the electrode terminal, and FIG. 3B shows a joined state between the electrode terminal and the outer lead.
As shown in FIG. 1A, the pair of electrode terminals 20 has a left-right symmetrical shape, and a recess 22 is formed on the back side at one end thereof. As described above, when the periphery of the cylinder 12 is molded with the resin 21, the resin 21 enters the recess 22, and the tongue piece 24 is taken into the resin 21. In this way, the recess 22 is buried in the resin 21 and the tongue piece 24 is taken into the resin 21, whereby the electrode terminal 20 is fixed to the vibrator main body, and the vibrator main body due to external force such as impact or vibration. Thus, the electrode terminal 20 is prevented from falling off. In addition, although the specific depth dimension in the recessed part 22 is influenced by the fluidity | liquidity of the resin 21 to be used, it is normally set to about 0.1 mm. In order to form the recess 22 on the surface of the electrode terminal 20 having a uniform thickness, a method such as half punching or etching may be used.
[ 0020 ]
Thus, if the outer lead 18 protruding from the cylinder 12 is bent in a crank shape to the position of the bottom surface of the cylinder 12 and the electrode terminal 20 connected to the outer lead 18 is formed in a flat plate shape, the outer lead 18 is formed on the cylinder 12 side. Since the lead 18 is formed, even if an external force is applied or the posture is inclined, the tip of the outer lead 18 comes into contact with the floor surface, so that the cylinder 12 can be prevented from rolling.
[ 0021 ]
Furthermore, if the bending height of the joint portion 19 is set so as to reach the bottom surface of the cylinder 12, the cylinder 12 can be maintained in a horizontal state. Therefore, if the cylinder 12 is held by a dummy terminal, which will be described later, and the joint portion 19 at the tip of the outer lead 18 is brought into contact with the electrode terminal 20, the cylinder 12 can be maintained in a horizontal state, and on the lower side thereof. A gap corresponding to the thickness of the electrode terminal 20 and the dummy terminal is formed. Since the cylinder 12 is not exposed from the bottom surface by the subsequent injection of the resin 21, the gap is filled with the resin 21, so that the cylinder 12 can be prevented from coming into contact with the pattern of the mounting substrate. A short circuit can be prevented from occurring.
[ 0022 ]
On the other hand, since there is no bent portion in the shape of the electrode terminal 20, there is no interference with the surroundings. For this reason, a large welding jig can be used, a sufficient amount of heat and a pressing force can be applied to the joint portion 19 and the electrode terminal 20, and a sufficient joint strength of both can be obtained. Further, as shown in FIG. 2 (1), since the joint portion 19 of the outer lead 18 completely overlaps the electrode terminal 20, there is no member protruding beyond the length of the electrode terminal 20, and therefore, the longitudinal direction of the vibrator body The dimensions can be narrowed.
[ 0023 ]
FIG. 4 is a perspective view showing the shape of the dummy terminal. As shown in the figure, a dummy terminal 26 is disposed on the opposite side of the cylinder 12 where the electrode terminal 20 is formed. The dummy terminal 26 is formed of a thin metal plate 32. On the opposite side of the position where the dummy terminal 26 is formed, a pair of upright pieces 28 are provided at both ends thereof, and the opening angle thereof is as follows. The value is only set to guide the outer shape of the cylinder 12. A standing piece 28 for holding the cylinder 12 is formed on one side of the thin plate 32, and a bifurcated shape as shown in a broken line frame 33 in the figure is formed on the other side of the thin plate 32. If these bifurcated tip portions that become the end portions of the thin plate 32 are used as the dummy terminals 26, the cylinder 12 can be positioned by the thin plate 32 that constitutes the dummy terminals 26. After the cylinder 12 is positioned, the vibrator 21 made of the resin 21 may be formed by introducing the resin 21 into the injection process.
[ 0024 ]
By the way, in the dummy terminal 26, it is necessary to prevent the resin 21 from coming off. However, in the case of this embodiment, the pair of upright pieces 28 are taken into the resin 21 to prevent the resin from coming off. For this reason, it is not necessary to form an anchor member in front of the end face of the cylinder 12 as in the prior art, and the total length of the piezoelectric vibrator 10 can be shortened by the plate thickness of the anchor member.
[ 0025 ]
FIG. 5 is a perspective view showing another shape of the dummy terminal.
In the figure, a pair of legs of a thin plate 34 formed in a substantially U shape is bent and the legs shown in a broken line frame 35 in the figure are used as dummy terminals 36. A distal end portion of the thin plate 34 having a substantially U-shape is used as an anchor member 38 and is arranged so as to follow the end face of the cylinder 12, and the resin 21 is injected into the injection process while maintaining this state. When the main body is formed, unlike the conventional dummy terminal, the leg portion is formed from the bending base, so that it is possible to ensure a long t1 dimension shown in FIG. About 3 times). For this reason, the close contact part of the solder for connecting to an external substrate becomes wide, and the mounting strength with respect to the external substrate can be ensured. Furthermore, even if an external force is generated on the external substrate, the force is not transmitted to the resin side, and the force can be absorbed by the bent base of the electrode terminal. Therefore, there is no risk of causing cracks in the main body made of resin, and the resin thickness can be reduced.
[ 0026 ]
Furthermore, unlike the conventional dummy terminal, since the leg portion is formed from the bending base, the thickness t2 of the resin 21 forming the vibrator main body can be reduced as shown in FIG. When combined with the leg length adjustment, the longitudinal dimension of the vibrator body can be reduced.
By the way, the pair of dummy terminals 36 described above have independent legs since the leg portions are formed from the bent base. Therefore, the dummy terminal 36 may be matched with the shape of the electrode terminal 20.
[ 0027 ]
FIG. 6 is a rear view of a piezoelectric vibrator in which the shape of a pair of dummy terminals formed from a thin plate is the same as the shape of an electrode terminal. As shown in the figure, if the contact shape of the electrode terminal 20 and the dummy terminal 36 provided on the piezoelectric vibrator 40 with respect to the external substrate is made the same, the external substrate on which the piezoelectric vibrator 40 is mounted is put into the reflow process. The self-alignment action can prevent the piezoelectric vibrator from moving when the solder melts in the reflow process. For this reason, the electrical continuity can be reliably achieved without separating the electrode terminal 20 and the terminal on the external substrate.
In the embodiment of FIG. 6, the electrode terminals 20 and the dummy terminals 36 have the same shape as described above, but the present invention is not limited to this configuration. For example, the contact area of the electrode terminals 20 and the dummy terminals 36 with respect to the external substrate is increased. You may make it vary the outer diameter size, making it equal. Thus, even if the contact areas of the electrode terminal 20 and the dummy terminal 36 with the external substrate are made equal, the self-alignment action can prevent the piezoelectric vibrator from moving when the solder melts in the reflow process. .
[ 0028 ]
In the present embodiment, the specification in which the pair of dummy terminals 36 is connected by the anchor member 38 is applied. However, the present invention is not limited to this configuration. For example, the pair of dummy terminals 36 is formed separately. This may be applied. In this case, unlike the specification connected by the anchor member 38, positioning is required at the individual dummy terminal 36.
[ 0029 ]
FIG. 7 is a rear view when the electrode terminals and the dummy terminals have the same shape and their orientations are changed by 90 degrees. 7 differs from FIG. 6 in that the shapes and orientations of the electrode terminals and the dummy terminals are changed by 90 degrees as described above, and therefore, the same numbers as those in FIG. In FIG. 2A, the electrode terminals 20 and the dummy terminals 36 are set to have the same shape, and the terminal directions are set so as to coincide with the longitudinal direction of the piezoelectric vibrator 40. If the electrode terminal 20 and the dummy terminal 36 are arranged in this manner, the piezoelectric vibrator 40 can be prevented from moving when the solder is melted in the reflow process by the self-alignment function, similar to the effect described in FIG. it can. For this reason, the electrical continuity can be reliably achieved without separating the electrode terminal 20 and the terminal on the external substrate.
[ 0030 ]
On the other hand, as shown in FIG. 2 (2), if the longitudinal direction of the terminals of the electrode terminal 20 and the dummy terminal 36 and the longitudinal direction of the piezoelectric vibrator 40 main body are arranged orthogonal to each other, t3 <t4. Become. For this reason, even if an external force is applied to the external substrate on which the piezoelectric vibrator 40 is mounted and a warp along the longitudinal direction of the vibrator main body occurs on the external substrate, in the case of FIG. Therefore, it is possible to absorb the warp of the external substrate with a longer dimension (t4). For this reason, even if the external substrate is warped, it is possible to prevent the terminals of the piezoelectric vibrator 40 from separating from the external substrate.
[ 0031 ]
By the way, in this Embodiment, it can replace with the outer lead 18 and the electrode terminal 20 which were made into the crank shape, and can use another form.
FIG. 8 is an explanatory view showing another form of the electrode terminal side.
As shown in FIG. 1A, the outer lead 42 is drawn out from the cylinder 12 in a straight line. Then, a thin plate made of metal is bent and formed in a U-shaped cross section as an electrode terminal 46, and the height is set to a dimension from the bottom surface of the piezoelectric vibrator 44 to the outer lead 42. And the terminal center part 48 of the electrode terminal 46 formed in such a dimension is arrange | positioned so that it may expose from a vibrator main body.
[ 0032 ]
If such a configuration is used, the solder 49 comes into close contact from the board mounting surface to the drawing height of the outer lead 42, so that a sufficient contact area can be obtained and the mounting strength can be improved. Furthermore, if the electrode terminal 46 is used, the total length of the piezoelectric vibrator reaches the dimension up to the tip of the outer lead 42, and the piezoelectric vibrator can be miniaturized.
[0033]
【The invention's effect】
As described above, according to the present invention, the vibrator main body includes the piezoelectric vibrating reed housed in the container, and the electrode disposed at the corner of the vibrator main body and protruding from the vibrator main body to be mounted on the external substrate. A piezoelectric vibrator provided with a terminal and a dummy terminal, wherein the periphery of the container in which the piezoelectric vibrating piece is accommodated is molded with a resin, and an outer lead that is drawn out of the piezoelectric vibrating piece and protrudes from the container is crank-shaped. The joint is formed at the tip of the outer lead, and a flat electrode terminal contacting the joint is disposed below the joint, and a thin portion is formed on the electrode terminal to form the resin. By providing the recessed portion to be buried in, a large welding jig can be applied, and it becomes possible to reduce the mounting area, to ensure the mounting reliability on the substrate, and to secure the mounting strength.
[Brief description of the drawings]
FIG. 1 is a top view showing a structure of a piezoelectric vibrator according to an embodiment.
FIG. 2 is a front view of the piezoelectric vibrator.
FIG. 3 is a perspective view showing a shape of an electrode terminal.
FIG. 4 is a perspective view showing the shape of a dummy terminal.
FIG. 5 is a perspective view showing another shape of a dummy terminal.
FIG. 6 is a rear view of a piezoelectric vibrator in which the shape of a pair of dummy terminals formed from a thin plate is matched with the shape of an electrode terminal.
FIG. 7 is a rear view when the electrode terminals and the dummy terminals have the same shape and their orientations are changed by 90 degrees.
FIG. 8 is an explanatory view showing another configuration on the electrode terminal side.
FIG. 9 is a schematic plan view of a piezoelectric vibrator capable of surface mounting.
10 is a cross-sectional view taken along CC in FIG.
11 is a bottom view of the piezoelectric vibrator in FIG. 9. FIG.
12 is a DD sectional view in FIG. 9. FIG.
FIG. 13 is a perspective view of electrode terminals in a piezoelectric vibrator.
FIG. 14 is a perspective view of a dummy electrode in a piezoelectric vibrator.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ......... Piezoelectric vibrator, 2 ......... Cylinder, 3 ......... Piezoelectric vibrating piece, 4 ......... Outer lead, 5 ...... Electrode terminal, 5A ......... Junction part, 5B ...... Board mounting part , 6 ......... Dummy terminal, 6A ......... Joint portion, 6B ......... Board mounting part, 10 ......... Piezoelectric vibrator, 12 ......... Cylinder, 14 ......... Piezoelectric vibrating piece, 16 ......... Lid 18 ......... Outer lead, 19 ......... Joint portion, 20 ......... Electrode terminal, 21 ......... Resin, 22 ......... Recess, 24 ......... Long piece, 26 ......... Dummy terminal, 28 ... ...... standing piece, 32 ......... sheet, 33 ......... broken line frame, 34 ......... sheet, 35 ......... broken line frame, 36 ......... dummy terminal, 38 ......... anchor member 40 ......... piezoelectric Vibrator 42 ... Outer lead 44 ... Piezoelectric vibrator 46 ... Electrode terminal 48 ... Terminal center 49 ... Field.

Claims (2)

Piezoelectric vibrator having a vibrator main body provided with a piezoelectric vibration piece housed in a container, an electrode terminal disposed at a corner of the vibrator main body, protruding from the vibrator main body and mounted on an external substrate, and a dummy terminal The outer periphery of the container in which the piezoelectric vibrating piece is accommodated is molded with resin, the outer lead that is drawn out of the piezoelectric vibrating piece and protrudes from the container is bent into a crank shape, and a joint is formed at the tip of the outer lead to form a, that this plate-shaped electrode terminals in contact with the joint portion is disposed on the lower side of the junction, provided with a recess to be buried in the resin to form the thin portion to the electrode terminal A characteristic piezoelectric vibrator.   The piezoelectric vibrator according to claim 1, wherein the joint portion is bent to a position of a bottom surface of the container.

Images