JP2003302294A5 - - Google Patents

Description

Title: Cable-Like Piezoelectric Sensor Claim:
1. A cable-like piezoelectric sensor comprising a core electrode, a piezoelectric body disposed around the core electrode, and an outer electrode disposed around the piezoelectric body, the piezoelectric sensor comprising: And a terminal portion in which an impedance conversion means having a size equal to or less than the outer diameter of the piezoelectric sensor is connected to the core electrode and the outer electrode at at least one end portion, the terminal portion fixing the end portion of the piezoelectric sensor A cable-like piezoelectric sensor comprising a narrow substrate on which an impedance conversion means is disposed .
2. The cable-like piezoelectric sensor according to claim 1, wherein a heat-shrinkable tube is disposed around the resistor.
3. The cable-like piezoelectric sensor according to claim 1, wherein the end portion has a covering portion covering the end portion of the piezoelectric sensor and the impedance conversion means.
4. The cable-like piezoelectric sensor according to any one of claims 1 to 3, wherein the end portion is covered by a conductor electrically connected to the outer electrode.
5. A cable according to any one of claims 1 to 4, wherein a resistor is connected between the core electrode and the outer electrode at the end opposite to the end of the piezoelectric sensor to which the impedance conversion means is connected. Shaped piezoelectric sensor.
6. The cable-like piezoelectric sensor according to claim 5, wherein the resistor is covered by a conductor electrically connected to the outer electrode.
Detailed Description of the Invention
[0001]
Field of the Invention
The present invention relates to a cable-like piezoelectric sensor.
[0002]
[Prior Art]
Conventionally, as shown in FIG. 6, the cable-shaped piezoelectric sensor is used by connecting the cable-shaped piezoelectric sensor 1 to an evaluation circuit 2 that processes an output signal from the cable-shaped piezoelectric sensor 1. The evaluation circuit 2 includes an impedance conversion unit, a filter unit, an amplification unit, a determination unit, and the like. Then, the cable-like piezoelectric sensor 1 is used by being disposed on the flexible elastic body 3 so as not to lose the sensitivity. As a specific application, for example, it is disposed in a window frame of a car and used as a sensor for preventing pinching of a power window, or disposed around a moving body and used as a sensor for collision detection.
[0003]
[Problems to be solved by the invention]
However, in the conventional cable-shaped piezoelectric sensor, since the shape of the evaluation circuit 2 is larger than the outer diameter of the cable-shaped piezoelectric sensor 1, the evaluation circuit 2 may be obstructed during transportation of the product or mounting on a window frame or the like. There were handling problems such as catching 2 and getting damaged.
[0004]
Moreover, although there is a case where the cable-like piezoelectric sensor 1 is desired to be disposed on the elastic body 3 together with the evaluation circuit 2 due to mounting restrictions, in the conventional cable-like piezoelectric sensor, the evaluation circuit 2 has a large shape. However, there is a mounting problem that the elastic body 3 can not be disposed.
[0005]
An object of the present invention is to solve the above-mentioned conventional problems, and to provide a cable-like piezoelectric sensor which is easy to handle and can be easily mounted.
[0006]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, according to the present invention, the cable-like piezoelectric sensor according to the present invention is an impedance conversion means having a size equal to or less than the outer diameter of the piezoelectric sensor to the core electrode and the outer electrode at at least one end of the piezoelectric sensor. Since the outer diameter of the terminal portion can be made equal to or less than the outer diameter of the piezoelectric sensor, the terminal portion can be easily handled and easily mounted on an elastic body or the like.
[0007]
BEST MODE FOR CARRYING OUT THE INVENTION
The invention according to claim 1, and a terminal portion connected to the magnitude of the impedance conversion means smaller than the outer diameter of the piezoelectric sensor into a core electrode and the outer electrode at least one end of the piezoelectric sensor, the terminal unit Is a narrow substrate provided with an end portion of the piezoelectric sensor fixed and an impedance conversion means disposed, and the outer diameter of the end portion can be made equal to or smaller than the outer diameter of the piezoelectric sensor. And, it can be easily mounted on an elastic body or the like.
[0008]
The invention described in claim 2 is the cable-like piezoelectric sensor according to the invention described in claim 1, in which the heat-shrinkable tube is disposed around the resistor.
[0009]
In the third aspect of the present invention, the terminal portion according to the first or second aspect of the present invention has a covering portion for covering the end portion of the piezoelectric sensor and the impedance conversion means, and the terminal portion can be protected.
[0010]
In the invention according to claim 4, the terminal portion according to any one of claims 1 to 3 is covered with a conductor electrically connected to the outer electrode, and the influence of electrical noise on the terminal portion is obtained. It can be prevented.
[0011]
The invention according to claim 5 is the cable-like piezoelectric sensor according to any one of claims 1 to 4, wherein a core electrode is formed at the end opposite to the end of the piezoelectric sensor to which the impedance conversion means is connected. A resistor is connected between the outer electrodes, and disconnection or short circuit of the cable-like piezoelectric sensor can be detected by applying a bias voltage to the resistor.
[0012]
According to the sixth aspect of the present invention, the resistor according to the fifth aspect is covered with a conductor electrically connected to the outer electrode, so that the influence of electrical noise on the resistor can be prevented.
[0013]
【Example】
An embodiment of the present invention will be described below with reference to FIGS.
[0014]
Example 1
FIG. 1 is an external view of a cable-like piezoelectric sensor according to a first embodiment of the present invention. In FIG. 1, 4 is a terminal portion in which the impedance conversion unit 5 is disposed, 6 is an end portion in which the resistor 7 is disposed, and 8 is a 3-core lead wire.
[0015]
The structure of the terminal unit 4 and the processing procedure of the terminal unit 4 are shown in FIG. As shown in FIG. 2, the terminal portion 4 forms a flexible composite piezoelectric layer 10 on the surface of a flexible core electrode 9 forming an internal electrode, and the surface of the flexible composite piezoelectric layer 10 And a conductive coating 11 forming an outer electrode, and a protective coating layer 12 formed around the conductive tape 11.
[0016]
A coiled metal wire or a wire obtained by bundling metal thin wires can be used as the core electrode 9. In this embodiment, a stainless steel stranded wire having an outer diameter of 0.3 mm is used.
[0017]
Composite piezoelectric material in which ceramic piezoelectric powder such as lead zirconate titanate is added to polymer matrix such as epoxy resin, urethane resin, chloroprene resin, chlorinated polyethylene resin as flexible composite piezoelectric layer 10, PVDF, And the like are used, and in the present embodiment, they are coated and molded to an outer diameter of 1.7 mm.
[0018]
A copper foil, an aluminum foil, a PET film on which aluminum is vapor-deposited, or the like is used as the conductive tape 11, and in this embodiment, an Al-PET-Al three-layer laminate film having a width of 3 mm is spirally wound. As the protective covering layer 7, vinyl chloride, fluorocarbon resin, polyurethane or the like is used. In this embodiment, vinyl chloride is coated and formed to have an outer diameter of 2.5 mm.
[0019]
The terminal unit 4 includes a narrow substrate 13 on which the end of the cable-like piezoelectric sensor is fixed and the impedance conversion unit 5 is disposed. The conductive tape 11 is electrically connected to the ground (not shown) of the substrate 13. Specifically, the conductive tape 11 and the ground are crimped by a clip member or a caulking member at a position P in FIG. 2 to achieve conduction. The core wire 9 is connected on the substrate 13 by soldering, for example.
[0020]
The end portion 4 has a covering portion 14 that covers the end portion of the cable-like piezoelectric sensor and the impedance conversion portion 5. The covering portion 14 is formed of, for example, a heat-shrinkable tube, and as shown in FIG. 2, after inserting the substrate 13, it is heated and shrunk and fixed. Then, the top is further covered by the conductor 15 electrically conducted to the outer electrode 11. The conductor 15 may be made of a metal tape or the like, but preferably, a conductive heat shrinkable tube is used. Conduction between the outer electrode 11 and the conductor 15 is performed by caulking using, for example, a caulking member from above the conductor 15 at the Q position, but conduction may be achieved with another configuration.
[0021]
FIG. 3 shows the configuration of the end 6 and the processing procedure of the end. As shown in FIG. 3, the long axis direction of the resistor 7 is made coaxial with the core electrode 9, the lead wire 16a near the piezoelectric sensor is connected to the core electrode 9, and the lead wire 16b is folded back on the opposite side. Connect to the conductive tape 11. As a result, the resistor 7 is disposed so as to be smaller than the outer diameter of the protective covering layer 12 and to reduce the electrically exposed portions of the lead wire 16 a and the core electrode 9. The resistor 7 may be any one of a chip resistance, a resistance with a lead, and so on as long as the outer diameter is smaller than the protective coating layer 11. In this embodiment, a 1/4 W lead with a coating is used. There is.
[0022]
The connection between the lead wire 16a and the core electrode 9 is made by welding, brazing, caulking, etc., and the connection between the lead wire 16b and the conductive tape 11 is made electrically by welding, brazing, caulking, etc. . An insulating coating 17 is formed on the surface of the lead 16b to prevent a short circuit with the lead 16a. For the insulating coating 17, vinyl chloride, fluorocarbon resin, polyurethane or the like is used. The insulating coating 17 may be formed on the side of the lead wire 16a.
[0023]
Finally, the heat shrinkable tube 18 is placed around to protect the resistor 7. If the heat shrinkable tube 18 is an insulator, it may be substituted by epoxy, silicon, hot melt or the like.
[0024]
The circuit of the impedance conversion means 5 is shown in FIG. In the figure, Ps is a piezoelectric sensor, R1 is a resistor 7 for disconnection detection, and is connected between the electrodes of the piezoelectric sensor. R1 is connected to the power supply Vd via another resistor R2. R3 and R4 are resistors for deriving a signal from the piezoelectric sensor, and Q1 is a FET for impedance conversion.
[0025]
The resistor R1 for disconnection detection is attached to the end on the opposite side to the connection with the signal processing circuit in order to perform disconnection detection when, for example, the cable-like piezoelectric sensor is accidentally disconnected by the cutter. ing. Then, disconnection detection is performed by monitoring a voltage value V1 formed by R1, R2, R3 and Vd in the signal processing circuit.
[0026]
An output signal from the impedance conversion means 5 is input to an external evaluation circuit through a lead wire 8, where processing such as amplification, filtering, determination and the like is performed. That is, since the signal from the piezoelectric sensor is converted to low impedance by the impedance conversion means 5, the signal derived from the lead 8 is less susceptible to noise due to a strong electric field, and the lead 8 can be output to any place. The signal can be derived.
[0027]
According to the above configuration, since the terminal portion 4 in which the impedance conversion means 5 having a size equal to or less than the outer diameter of the piezoelectric sensor is connected to the core electrode 9 and the outer electrode 11 at the end of the cable-like piezoelectric sensor is provided. Since the outer diameter of 4 can be made equal to or less than the outer diameter of the cable-like piezoelectric sensor, it is easy to handle without being obstructed or caught and damaged. Further, when the piezoelectric sensor is disposed on an elastic body or the like, the terminal portion 4 can be disposed on the elastic body, and can be easily mounted.
[0028]
Further, the terminal portion 4 is provided with the narrow substrate 13 on which the end portion of the cable-like piezoelectric sensor is fixed and the impedance conversion means 5 is disposed, so that the terminal portion 4 can be strongly held. Reliability improves.
[0029]
In addition, since the terminal unit 4 has the covering unit 15 that covers the end of the piezoelectric sensor and the impedance conversion unit 5, the terminal unit 4 can be protected.
[0030]
Further, since the terminal portion 4 is covered with the conductor 15 conducted to the outer electrode 11, the influence of electrical noise on the terminal portion 4 can be prevented.
[0031]
In the cable-like piezoelectric sensor, the resistor 7 is connected between the core electrode 9 and the outer electrode 11 at the end opposite to the end of the piezoelectric sensor to which the impedance conversion means 5 is connected. It is possible to detect a break or a short circuit of the cable-like piezoelectric sensor by applying a bias voltage thereto.
[0032]
The resistor 5 may be covered by a conductor electrically connected to the outer electrode 11, and the influence of electrical noise on the resistor 5 can be prevented.
[0033]
Further, in the above embodiment, the impedance conversion means 5 is disposed on the substrate 13. However, depending on the application and if the restriction on mounting permits, amplification for amplifying the output signal from the impedance conversion means 5 is performed. The parts, the filter part, the determination part, and the like may be disposed on the substrate 13, and the influence of electrical noise can be further reduced, and the reliability is improved.
[0034]
Further, as shown in FIG. 5, the substrate 13 is inserted into the covering portion 14 made of a heat shrinking tube, the covering portion 14 is heated, and after shrinking and fixing the heat shrinking tube, the through hole 20 of the lead wire 8 is The terminal portion 4 may be covered with the metallic cap portion 21 provided, and the strength of the terminal portion 4 is improved.
[0035]
In the case of this configuration, the conductive tape 11 wound around the composite piezoelectric layer 10 is partially peeled off as in R, and wound around the end of the protective coating layer 12 so that the cap 21 is the end of the cable-like piezoelectric sensor. When the conductive tape 11 and the cap portion 21 are in contact with each other at the position of R when fitting into the portion R, electrical conduction is achieved. The cap portion 21 may be crimped at the R position to further improve the reliability of conduction.
[0036]
Further, the lead wire 8 may be a shield wire of at least two cores. In this case, the shield of the shield wire is electrically connected to the ground of the substrate 13 and the conductive tape 11 as the outer electrode. This configuration makes it possible to further reduce the influence of electrical noise.
[0037]
【Effect of the invention】
As described above, according to the cable-shaped piezoelectric sensor of the present invention, the impedance conversion means having a size equal to or less than the outer diameter of the piezoelectric sensor is connected to the core electrode and the outer electrode at at least one end of the piezoelectric sensor Since the outer diameter of the terminal portion can be made equal to or smaller than the outer diameter of the piezoelectric sensor, it is easy to handle and can be easily mounted on an elastic body or the like.
Brief Description of the Drawings
1 is an external view showing the configuration of a cable-like piezoelectric sensor according to a first embodiment of the present invention. FIG. 2 is an external perspective view showing the configuration of a terminal in the first embodiment. FIG. 3 is a configuration of an end according to the first embodiment. FIG. 4 is an external perspective view showing an impedance conversion circuit according to the first embodiment. FIG. 5 is an external perspective view showing the configuration of a terminal portion according to another embodiment. Appearance shown [Description of symbols]
4 terminal 5 impedance conversion means 6 end 7 resistor 9 core electrode 10 flexible composite piezoelectric layer (piezoelectric)
11 Conductive tape (outside electrode)
14 Cover 15 Conductor