JPH08254458A - Vibration sensor - Google Patents

Abstract

PURPOSE: To provide a vibration sensor which allows automated fixation of piezo element and the mounting of electronic components, suppresses labor in the wiring works, and performs the fixation of a board simply using screw and rivet caulking. CONSTITUTION: A piezo element 15, impedance converter circuit, and amplifier circuit are mounted on one board 12, which is installed on the base 1 upon positioning vertically to the mounting surface (i) for a vibration sensor concerned.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vibration sensor using a piezoelectric element.

[0002]

2. Description of the Related Art An example of a conventional vibration sensor of this type is shown in FIG. In this vibration sensor, the piezoelectric element 40 is fixed to the case 41 with a screw 42, and the case 41 also serves as a part of the electrode 43. Further, the board 44 on which the impedance conversion circuit and the amplification circuit are mounted is fixed in a state of being positioned horizontally with respect to the mounting surface B of the vibration sensor, and is connected to the piezoelectric element 40 by the lead wire 45. Further, the case 41 is made of a metal cut product (mainly stainless steel) from the viewpoint of strength, and a mounting screw portion 46 is formed at the end thereof. In addition, 47 is a cable and 48
Is a weight.

[0003]

However, in the vibration sensor described above, the piezoelectric element 40 is screwed together with the electrode 43 to the case 41. In order to reduce the size, the substrate 44 has a circular shape and is fixed in a state in which it is positioned horizontally with respect to the mounting surface B of the vibration sensor.
Since it is difficult to fix with screws or the like, it is necessary to fix with an adhesive. Since the piezoelectric element 40 and the substrate 44 are separated, their wiring (lead wire 45) is required.

From the above three points, the assemblability is deteriorated, and since the case 41 also serves as the electrode 43 of the piezoelectric element 40, it is necessary to achieve an electrically insulating structure between the case 41 and the substrate circuit. There is a problem that it is necessary to make a complicated structure such as a heavy structure. In addition, the case 41
However, there is a problem in that the mounting screw portion 46 becomes weaker when it is manufactured from an inexpensive material.

The present invention has been made in view of the above problems, and an object of the present invention is not only to fix the piezoelectric element and to attach the electronic parts automatically, but also to save the wiring work and the substrate. It is an object of the present invention to provide a vibration sensor that can be easily fixed with screws and rivets.

[0006]

In order to achieve the above object, a vibration sensor according to the present invention includes a surface-mounted piezoelectric element that generates a voltage when excited, and a detection signal of the piezoelectric element. An impedance conversion circuit for controlling impedance and an amplification circuit for amplifying a detection signal are mounted on a single substrate, and the substrate is provided in the sensor main body in a position perpendicular to the vibration sensor mounting surface. To do.

It is preferable that the substrate has electrical insulation, and the piezoelectric element may be located on the central axis of the sensor body.

The sensor body may be composed of a base and a case, the base may be a die cast product, and a screw member may be attached to the base by insert molding to form a mounting screw portion. In addition, a polygonal flange portion to which the tightening tool can be attached may be provided.

[0009]

With this structure, the fixing of the piezoelectric element and the mounting of electronic parts (impedance conversion circuit and amplification circuit) can be automated, and not only the labor of wiring can be saved, but also the fixing of the board can be easily performed with screws and rivet caulking. it can.

Further, since the substrate has an electric insulation property, it is possible to easily achieve an electric insulation structure between the sensor body and the circuit.

Further, by positioning the piezoelectric element on the central axis of the sensor body, the detection accuracy can be improved.

Further, the sensor main body is composed of a base and a case, and the base is a die cast product, and a screw member is attached to the base by insert molding to form a mounting screw portion, so that the base is inexpensive die casting. The manufacturing cost can be reduced while the mounting screw portion can be made of iron.

Further, since the base is provided with a polygonal flange portion to which a tightening tool can be attached, the vibration sensor can be attached and detached using a tightening tool such as a monkey spanner.

[0014]

Embodiments of the present invention will now be described in detail with reference to the drawings. 1A is a perspective view of a vibration sensor according to the present invention, FIG. 2B is a plan view of the vibration sensor as seen from the mounting screw side, and FIG. 2 is a line AA of FIG. Sectional view along Figure 3,
Is a sectional view taken along line BB in (2) of FIG. 1, and FIG. 4 is a circuit block diagram of a vibration sensor according to the present invention.

The vibration sensor according to the present invention comprises a sensor body 30 consisting of a base 1 and a case 2. The base 1 is a zinc die cast product, and has a polygonal (hexagonal) flange 3 and a screw 4. And a mounting portion 5, and a screw member 6 made of iron is fixed to the center of the flange portion 3 by insert molding to form a mounting screw portion 7. The screw portion 4 is formed with a board mounting portion 8 which is a recess, and the board mounting portion 8 is formed with a screw hole 9. Further, the mounting portion 5 is deviated to one side from the center line a of the base 1 (which is also the center line of the case 2). The case 2 has a cylindrical shape, and has a threaded portion 10 inside the base and a bush rubber mounting portion 11 at the tip.

A board 12 made of an electrically insulating material is provided on the mounting portion 5 of the base 1 in parallel with the center line B, and one end of the board 12 has the screw portion 4
It is inserted in the board mounting portion 8 and is fixed to the board mounting portion 8 by the board fixing screw 13. Also, the substrate 1
The other end of 2 is fixed to the front side of the mounting portion 5 by a board fixing rivet 14. As shown in the circuit block of the vibration sensor of FIG. 4, the surface-mounted piezoelectric element 15, the impedance conversion circuit 25, and the operational amplifier 16 that also serves as the amplification circuit 26 are mounted on the substrate 12, and the impedance conversion is performed. Since the circuit 25 is weak against hum noise, it is shielded by the shield case 17 and the shield film 18. A cable 19 is connected to the other end of the board 12.

The case 2 is attached to the base 1 by screwing the threaded portion 10 onto the threaded portion 4 of the base 1, and the cable 19 is led out from the tip of the case 2. . A cable bush rubber 20 is inserted into the bush rubber mounting portion 11 of the case 2, and the cable bush rubber 20 is fixed by a tightening member 21 to ensure the sealing property. A case bush rubber 22 is provided at the base of the screw portion 4, and the case bush rubber 22 is used for the case 2
The slanted surface portion 2a at the end of is contacted with pressure to ensure sealing performance.

In the vibration sensor thus constructed, the substrate 12 is positioned perpendicular to the vibration sensor mounting surface B, and the piezoelectric element 15 is positioned at the center of the case 2.

Next, the operation of the vibration sensor will be described. In this vibration sensor, a mounting tool 7 is mounted in a screw hole (not shown) of a vibration measuring object (not shown) with a tightening tool such as a monkey wrench attached to the flange 3 and screwed. It is attached to this vibration measurement object. When the vibration sensor is vibrated while power is being supplied from the power line 19A of the cable 19, a voltage is generated in the piezoelectric element 15. As shown in FIG. 4, this signal has its impedance lowered by the impedance conversion circuit 25 of the operational amplifier 16 and is amplified by the amplification circuit 26 (increases sensitivity).
And output from the output line of the cable 19.

According to the above embodiment, the piezoelectric element 15
The impedance conversion circuit 25 and the amplification circuit 26 are mounted on one substrate 12, and the substrate 12 is provided on the base 1 so as to be positioned perpendicularly to the vibration sensor mounting surface B. Fixing and mounting of electronic parts (operational amplifier 16) can be automated, and not only the labor of wiring can be saved, but also the board 12 can be easily fixed by crimping the board fixing screw 13 and the board fixing rivet 14.

Further, since the substrate 12 is electrically insulating, the electrically insulating structure of the base 1, the impedance conversion circuit 25 and the amplification circuit 26 can be easily achieved, and the piezoelectric element 15 By positioning the case 2 on the central axis (i), the detection accuracy can be improved.

Further, the base 1 is a die cast product, and the screw member 6 is attached to the base 1 by insert molding to form the mounting screw portion 7, so that the base 1 can be manufactured by an inexpensive die casting, and the mounting can be performed. Screw part 7
Only the iron can be made, and the cost can be reduced while ensuring the strength.

Since the base 1 is provided with the polygonal flange portion 3 to which the tightening tool can be attached, the vibration sensor can be attached and detached using a tightening tool such as a monkey spanner.

[0024]

As described in detail above, the vibration sensor according to the present invention includes a surface-mounted piezoelectric element that generates a voltage when excited, and an impedance that controls the impedance of a detection signal of the piezoelectric element. The conversion circuit and the amplification circuit for amplifying the detection signal are mounted on one board, and the board is positioned perpendicular to the vibration sensor mounting surface and provided in the sensor main body. Mounting of components (impedance conversion circuit and amplification circuit) can be automated, wiring labor can be saved, and the board can be easily fixed with screws and rivet caulking.

Further, since the substrate has an electrical insulation property, it is possible to easily achieve an electrically insulating configuration of the sensor body and the circuit.

Further, by positioning the piezoelectric element on the central axis of the sensor body, the detection accuracy can be improved.

Further, the sensor main body is composed of a base and a case, and the base is a die-cast product, and a screw member is attached to the base by insert molding to form a mounting screw portion. The manufacturing cost can be reduced while the mounting screw portion can be made of iron.

Since the base is provided with a polygonal flange portion to which a tightening tool can be attached, the vibration sensor can be attached and detached using a tightening tool such as a monkey spanner.

[Brief description of drawings]

FIG. 1A is a perspective view of a vibration sensor according to the present invention. (2) is a plan view of the same vibration sensor as seen from the mounting screw side.

FIG. 2 is a sectional view taken along line AA of (2) in FIG.

FIG. 3 is a sectional view taken along the line BB in (2) of FIG.

FIG. 4 is a circuit block diagram of a vibration sensor according to the present invention.

FIG. 5 is a sectional view of a conventional vibration sensor.

[Explanation of symbols]

 1 Base 12 Substrate 15 Piezoelectric element 25 Impedance conversion circuit 26 Amplification circuit

Claims (5)

[Claims] 1. A surface-mounted piezoelectric element that generates a voltage by being excited, an impedance conversion circuit that controls the impedance of a detection signal of the piezoelectric element, and an amplification circuit that amplifies the detection signal. A vibration sensor, which is mounted on a substrate, and is provided in a sensor body with the substrate positioned perpendicular to a vibration sensor mounting surface. 2. The vibration sensor according to claim 1, wherein the substrate has electrical insulation. 3. The vibration sensor according to claim 1, wherein the piezoelectric element is located on the central axis of the sensor body. 4. The mounting main body comprises a base and a case, the base is a die-cast product, and a screw member is attached to the base by insert molding to form a mounting screw portion. The vibration sensor according to Item 3. 5. The vibration sensor according to claim 4, wherein the base is provided with a polygonal flange portion to which a tightening tool can be attached.