JPH0510804A - Vibration type level detector - Google Patents

Abstract

PURPOSE:To obtain a small-sized vibration type level detector which can detect accurately and precisely whether an object of detection held in a vessel reaches a prescribed level. CONSTITUTION:A vibration type level detector which is fitted to a vessel 28 holding an object of detection has a part projecting inside the vessel and the projecting part is constructed of a return vibration body which is constructed of a detecting pipe 4, a blocking part 5 and a vibrating plate 6 and vibrates in a mode being approximate to the vibration mode of a so-called return vibration rod. This return vibration body is held by a base unit 1 fixed to the vessel 28, with a diaphragm part 3 interposed. The return vibration body is vibrated in a prescribed state of vibration by a vibration generating element 7 provided on the vibrating plate 6, a change in this state of vibration occurring when the object of detection comes into contact with the detecting pipe 4 or the blocking part 5 is detected by a vibration detecting element 8 provided in the diaphragm part 3 or a detecting part 2, and thereby the level of the object of detection inside the vessel 28 is detected.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vibration type level detecting device for detecting the level of powdery particles or liquid contained in a container or the like.

[0002]

2. Description of the Related Art FIG. 17 is a cross-sectional view showing a conventional vibration type level detecting device fixed to a container 28 containing powder or granules, liquids and the like which are objects to be detected. This vibration type level detection device detects the level of the detection target object by contacting the detection target object in the container 28 with the contact portion 22a protruding from the main body 50 of the vibration level detection device. It is configured. Contact part protruding from the cylindrical part 24 of the main body 50
The detection unit 22b provided inside the tubular portion 24 and the tubular portion 24a is composed of a rod-shaped metal vibrating body 22. This metal vibrator 22
Is supported substantially at its center by a thin membrane plate 23 provided so as to close the protruding end of the tubular portion 24.

The detecting portion 22b of the metal vibrating body 22 has an exciting piezoelectric element 26 as a vibrating means for vibrating the metal vibrating body 22 and a vibration detecting device for converting the vibration state of the metal vibrating body 22 into an electric signal. A receiving piezoelectric element 27 is provided as a means. The electric signal converted by the receiving piezoelectric element 27 is amplified by an amplifier circuit provided in the main body 50 and then given to the exciting piezoelectric element 26. With such a self-exciting circuit, the metal vibrating body 22 is configured to vibrate at a natural frequency.

In the conventional vibration type level detecting device constructed as described above, when the object to be detected comes into contact with the contact portion 22a of the metal vibrating body 22, the vibration of the contact portion 22a is restrained, so that the metal vibration Vibrations of body 22 are dampened or stopped.
The change in the vibration state of the metallic vibrating body 22 is converted into an electric signal by the receiving piezoelectric element 27 attached to the detecting portion 22b, and is output as a detection signal from the detection circuit provided in the main body 50. As described above, the conventional vibration type level detection device detects a change in the vibration state of the detection unit 22b of the rod-shaped metal vibrating body 22, and the detected object inside the container 28 has reached a predetermined level. It is to detect whether.

[0005]

In the conventional vibration type level detecting device, metal vibration is caused by the difference in the structure, material and mass of the container 28 in which the device is mounted, or the mounting method in the container 28 and the like. Because the vibration of the body 22 is not constant, the container
Complex adjustment work is required when mounting on 28 etc.,
The quality of this adjustment work greatly affected the detection sensitivity of the device. For this reason, there has been a demand for a vibration type level detection device which is less likely to be affected by the container 28 or the like in which the device is mounted and which can be easily adjusted.

Further, in recent years, the demand for small containers and the like has increased, so that small containers can be accommodated.
There has been a demand for a vibration type level detecting device having a small protruding portion inside the container.

The present invention achieves the above-mentioned problems, has a small protruding portion inside a container or the like for accommodating an object to be detected, and requires complicated adjustment work when the device is mounted in the container. It is an object of the present invention to obtain a vibration type level detection device having high detection sensitivity.

[0008]

A vibrating level detecting device according to the present invention is substantially composed of a base fixed to a container accommodating an object to be detected and a mounting surface of the container to which the base is fixed. A diaphragm portion having parallel diaphragm surfaces, a detection pipe portion that projects substantially at a right angle from the diaphragm surface of the diaphragm portion, a closing portion that closes the tip portion of the detection pipe portion, and the detection pipe portion An elongated rectangular diaphragm having one end fixed to the closing portion and the other end being a free end and fixed to the diaphragm for exciting the diaphragm and the detection pipe portion and the Vibrating means for vibrating the closing part and the diaphragm in a folded manner,
And a vibration detection unit provided on the diaphragm portion for detecting a vibration state of the folding vibration.

[0009]

The vibrating level detecting device of the present invention is a substantially cylindrical detection device that projects from the base portion attached to the wall of a container or the like that houses the object to be detected to the inside of the container via the diaphragm portion. A pipe part, a closing part provided so as to close the tip of the detection pipe part, and an inside of the detection pipe part, one end of which is fixed to the closing part and the other end is a free end. A folding vibration body constituted by a vibrating plate is vibrated by a vibrating means provided on the vibrating plate at a natural frequency of the folding vibration close to the vibration of a so-called folding cantilever rod. At this time, since the diaphragm portion has a lower rigidity than the detection pipe portion, the diaphragm portion also vibrates considerably.
In this vibrating state, when the detection pipe portion or the like of the folding vibrating body contacts the object to be detected housed in the container, the vibrating state of the folding vibrating body changes. The change in the vibration state is detected by the vibration detecting means, converted into an electric signal, and a detection signal is output.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the vibration type level detecting device of the present invention will be described with reference to the drawings.

FIG. 1 is a side sectional view showing a vibration type level detecting device according to a first embodiment of the present invention with a part thereof broken away, and FIG. 2 is a II-II of the vibration type level detecting device shown in FIG. It is sectional drawing by a line.

As shown in FIG. 1, in the vibration level detecting apparatus of the first embodiment, a base 1 mounted on a container 28 for containing an object to be detected and a container 28 to which the base 1 is fixed are mounted. And a diaphragm surface 3a having a diaphragm surface 3a substantially parallel to the surface, and the diaphragm surface 3a of the diaphragm portion 3
And a detection unit 2 which is projected substantially at a right angle to project into the container 28 when the apparatus is mounted on the container 28. As shown in FIG. 1, the base portion 1 has a mounting portion for fixing to a wall of a container 28 that stores an object to be detected.
1a is provided. In the first embodiment, the nut 25 is screwed onto the mounting portion 1a and fixed to the container 28.
The base 1 may be fixed by screwing 1a directly onto the container 28. The detection unit 2 that protrudes into the container 28 when the device is attached to the container 28 includes a thin detection pipe 4 having a thin thickness, a closing unit 5, and a diaphragm 6. The detection pipe 4 of the first embodiment is made of stainless steel (SUS30
4, SUS316, etc.) with a 1.0 mm thick pipe,
A pipe formed of titanium material, hastelloy material, monel metal material, inconel material, steel material (SS material, SC material, etc.) may be used. The closing portion 5 is welded to the tip of the detection pipe 4. A tap hole is formed in the closing portion 5, and one end of the diaphragm 6 is screwed into the tap hole. Therefore, the detection pipe 4, the closing portion 5, and the vibrating plate 6 form a vibrator similar to a so-called folded cantilever rod, and this vibrator is hereinafter referred to as a folded vibrator.

The vibrating plate 6 includes lead zirconate titanate (P
bTiO ₃ -PbZrO ₃₎ vibration element 7 as a vibrating means is a piezoelectric element as a main component is mounted on the side surface of the vibrating plate 6, mounting of the vibration element 7 from the closed portion 5 side end portion The distance to the position is 20% -30% of the total length of the diaphragm 6. Due to the vibration of the vibrating element 7, the detection unit 2 forming the folded vibrator vibrates in a vibration mode similar to the vibration mode of a so-called folded cantilever. This detection part 2 is held by the base part 1 through the diaphragm part 3,
Since the vibration node of the folded cantilever of the detection unit 2 moves to the base 1 side by providing the diaphragm unit 3, the detection unit 2 is composed of the shortened detection pipe 4. As shown in FIG. 1, this diaphragm portion 3 has a diaphragm surface 3a having a surface orthogonal to the protruding direction of the detection pipe 4 of the detection portion 2, and the diaphragm surface 3a allows the detection portion 2 to operate. It is supported. As shown in the sectional view of the diaphragm portion 3 in FIG.
On the inner surface of 3a, a vibration detecting element 8 as a vibration detecting means, for example, a piezoelectric element having the same structure as that of the vibrating element 7 is attached to the diaphragm surface 3a. The vibrating element 8 and the vibrating element 7 are electrically connected to an electric circuit provided inside the base 1 via lead wires (not shown).

The operation of the first embodiment of the vibration type level detecting device of the present invention constructed as above will be described.

In this vibrating level detecting device, a folded vibrating body composed of the detection pipe 4, the closing portion 5 and the vibrating plate 6 is folded back by a forced cantilever of a vibrating element 7 mounted on the vibrating plate 6 to form a cantilever bar. It vibrates in a vibration mode similar to the vibration mode of.

The vibration state of the folded vibrating body is shown diagrammatically in FIG. When the vibrating plate 6 is forcibly vibrated by the vibrating element 7, the folded vibrating body vibrates as shown in FIG. At this time, since one end of the detection pipe 4 is supported by the diaphragm surface 3a, it vibrates together with the diaphragm surface 3a. The frequency of the folded vibrator is determined by the natural frequency of the diaphragm 6. In order to stably vibrate the folded vibrator at the natural frequency of the diaphragm 6, the length of the diaphragm 6 is 1.0 Then, it is preferable that the length of the detection pipe 4 is between 1.0 and 2.5. The vibration state of the folded vibration body is detected by the vibration detecting element 8 provided in the diaphragm portion 3 and converted into an electric signal.

When the folding vibrating body vibrates at the natural frequency as described above, when the granular material, liquid, or the like as the object to be detected reaches a predetermined level in the container 28, the closing part 5 or the detection pipe. 4, the vibration of the folded vibration body is suppressed. By suppressing the vibration of the folding vibrator, the vibration changes such that it is damped or stopped. The change in the vibration state is remarkably shown in the vibration state of the diaphragm surface 3a of the diaphragm portion 3. Therefore, the vibration detecting element 8 provided on the diaphragm surface 3a accurately detects the change in the vibration state. The vibration state detected by the vibration detecting element 8 is converted into an electric signal and transmitted to an electric circuit provided inside the base 1.

FIG. 4 shows a block diagram of an electric circuit arranged inside the base 1 together with a schematic view of the vibration type level detecting device. In FIG. 4, the vibrating element 7 which receives the vibrating signal from the amplifying circuit 9 vibrates the vibrating plate 6, and vibrates the folding vibrating body composed of the vibrating plate 6, the closing portion 5 and the detection pipe 4. The vibration state of the folded vibration body is converted into an electric signal by the vibration detection element 8 provided in the diaphragm portion 3 and input to the amplification circuit 9 as a vibration reception signal. The received signal input to the amplifier circuit 9 is amplified and input again to the oscillating element 7 (positive feedback loop). By this positive feedback loop, the folded vibrating body constituted by the vibrating plate 6, the closing part 5, and the detection pipe 4 self-excited and oscillates to the natural frequency of the folded vibrating body without being affected by the container 28 to be mounted. Therefore, it vibrates.

The vibration state of the folded vibrating body is determined by the vibration detecting element 8
The detection circuit 10 to which the received vibration signal is input is detected, and the detection circuit 10 outputs a detection signal. When powder particles or the like as the object to be detected reach the predetermined level in the container 28 and come into contact with the detection pipe 4 and the closed portion 5 which are a part of the folding vibration body, the vibration state of the folding vibration body surely changes. , The change is remarkably shown in the received signal output from the vibration detecting element 8. Therefore, the detection circuit 10 that receives the vibration reception signal from the vibration detection element 8 detects a change in the vibration state indicating that the granular material or the like has reached a predetermined level in the container 28 and outputs the detection signal. . This detection signal is transmitted to a display device provided outside the device or a feeding device of the object to be detected to display that a predetermined level is reached or to cut off the power supply to the feeding device. To do.

In the vibration type level detecting device of the first embodiment described above, a disk-shaped vibration detecting element is attached to a part of the diaphragm surface 3a as shown in FIG.
As shown in FIG. 5, it is also possible to provide a vibration detecting means 80 formed in a donut-shaped outer shape that can be attached to the entire vibrating portion of the diaphragm surface 3a. Since the diaphragm 6 is configured to be screwed to the closed portion 5, the diaphragm 6
Although it is difficult to predetermine the vibration direction by fixing the fixed position of the, the vibration detecting element 8 of the donut-shaped vibration detecting means 80 is attached to the diaphragm surface 3a.
It is not necessary to take the vibration direction into consideration when mounting the vibration type level detection device on the container, and the device incorporating the vibration type level detection device can be made suitable for mass production.

As shown in the sectional view of FIG. 6, the vibration detecting means 80 is formed by forming the vibration detecting elements 8 of the vibration detecting means 80 into a plurality of fan shapes.
Is configured to output the sum of the absolute values of the outputs of the respective vibration detecting elements 8, the vibration type level detecting device can have higher detection accuracy.

Since the vibration type level detecting device of the first embodiment is constructed as described above, the granular material or the like as the object to be detected is firmly filled in the container 28 with a large pressure, and the detecting portion is detected. When the vibration of the second detection pipe 4 is strongly restrained by the powdery particles or the like and is forcibly stopped, the stopped state of the detection pipe 4 surely appears in the diaphragm portion 3. Therefore, the stopped state or the vibrating state of the detection pipe 4 can be reliably detected by the vibration detecting element 8 provided in the diaphragm portion.
Moreover, it can be detected with high accuracy.

<Second Embodiment> A second embodiment of the vibration type level detecting device of the present invention will be described with reference to the drawings.

FIG. 7 is a side sectional view showing a part of a vibration type level detecting device according to a second embodiment of the present invention in a cutaway manner. In the above-described first embodiment, the vibration detecting means for detecting the vibration state of the folded vibrator is the vibration detecting element 8 provided in the diaphragm portion 3. However, the vibration type level detecting device of the second embodiment has a detecting portion. The acceleration detecting element 11 provided in 2 is used as a vibration detecting means. In FIG. 7, components having the same functions as those of the vibration type level detecting device of the first embodiment described above are designated by the same reference numerals, and the description thereof will be omitted.

FIG. 8 is a sectional view showing the vicinity of the closing portion 5 and the diaphragm 6 in the detecting portion 2. A hole 5a having the same central axis as the central axis of the detection pipe 4 in the protruding direction is formed in the closed portion 5. This hole 5a is threaded, and the diaphragm 6
Is configured to be screwed on. The closing portion 5 is welded and fixed to the tip of the detection pipe 4 so as to close the tip.

As shown in the sectional view of FIG. 8, an element mounting hole 6a having a central axis in the protruding direction of the detection pipe 4 is formed in the vibrating plate 6 screwed to the closing portion 5. Has been done. The element mounting hole 6a has one opening at the end (left end in FIG. 8) of the diaphragm 6, and the other opening communicates with a hole 6b penetrating both side surfaces of the diaphragm 6. is doing. A threaded portion 6c for fixing to the closing portion 5 is formed at the left end of the diaphragm 6, and the hole of the closing portion 5 is formed.
The vibrating plate 6 is fixed to the closing portion 5 by screwing the threaded portion 6c into the thread 5a. The vibrating element 7 is attached to the side surface of the vibrating plate 6, and the distance from the end of the closing portion 5 side to the attaching position of the vibrating element 7 is 20% -30% of the entire length of the vibrating element 6. Is the length. The vibration element 7 is electrically connected to an electric circuit provided inside the base 1 via a lead wire (not shown).

In the element mounting hole 6a of the diaphragm 6, an acceleration sensing element 11 as a vibration detecting means is fitted and fixed so that the sensing direction and the vibration direction of the diaphragm 6 are the same direction. That is, the acceleration sensing element 11 is fixed in the blocking portion 5 which is a sensing portion of the vibration state of the detection portion 2. The vibration receiving signal from the acceleration sensing element 11 is applied to the element mounting holes 6a and 6b.
Through a lead wire (not shown) to an electric circuit provided in the base portion 1.

The operation of the second embodiment of the vibration type level detecting device of the present invention constructed as above will be described.

As described in the first embodiment, the detection pipe 4
When the folded vibrating body composed of the closing part 5 and the vibrating body 6 is vibrating at the natural frequency, when the granular material, liquid or the like as the object to be detected comes into contact with the closing part 5 or the detection pipe 4, Vibration of the folding vibrator is attenuated or stopped. The damping or stopped state of the vibration of the folded vibrator is detected by the detection pipe 4
Remarkably and surely appears in the closed portion 5 provided at the tip of the. For this reason, the change in the vibration of the folded vibrating body is accurately detected by the acceleration sensing element 11 provided in the closing portion 5. This vibration state detected by the acceleration sensing element 11 is converted into an electric signal and transmitted to an electric circuit provided inside the base 1.

FIG. 9 shows a block diagram of the electric circuit arranged inside the base 1 together with a schematic view of the vibration type level detecting device of the second embodiment. In FIG. 9, the vibration element 7 which receives the vibration signal from the amplifier circuit 9 vibrates the vibrating plate 6, and vibrates the folding vibrating body composed of the vibrating plate 6, the closing portion 5 and the detection pipe 4. The vibration state of the folded vibrating body indicates that the acceleration sensing element 11 provided in the closing portion 5
Is converted into an electric signal by the amplifier circuit 9 as a received signal.
Is input to. The received signal input to the amplifier circuit 9 is amplified and input again to the vibrating element 7 (positive feedback loop),
The folded vibrator is vibrated at a natural frequency.

As described above, the vibration state of the folded vibrating body is detected by the detection circuit that receives the vibration receiving signal from the acceleration sensing element 11.
Detected by 10, the detection circuit 10 outputs a detection signal corresponding to the vibration state of the folding vibrator. Therefore,
This detection signal indicates the vibration state of the closed portion 5 measured by the acceleration sensing element 11.

In the state where the folded vibrator vibrates at the natural frequency, the powder particles or the like as the object to be detected are stored in the container 28.
Detection pipe 4 of the vibrating body that has reached a predetermined level inside
When the powder or granular material or the like comes into contact with the closed portion 5 or the closed portion 5, the vibration state of the folding vibrating body is surely changed, and the change is remarkably shown in the vibration reception signal output from the acceleration sensing element 11. The received signal indicating the vibration state output from the acceleration sensing element 11 is
The signal is transmitted to the detection circuit 10 provided inside the base portion 1 and is transmitted as a detection signal to a display device provided outside the device or a feeding device for the detection target.

The vibration type level detecting device of the second embodiment is
Because of the above-described structure, the powder or granular material, which is the object to be detected, is firmly filled into the container 28 with a large pressure, and the vibration of the closing portion 5 of the detection unit 2 is caused by the powder or granular material. When it is strongly restrained and forcedly stopped, the stopped state of the closed portion 5 surely appears in the output of the acceleration sensing element 11. Therefore, the stopped state or the vibrating state of the closed portion 5 in the detection unit 2 can be reliably detected by the acceleration sensing element 11.
Moreover, it can be detected with high accuracy.

<Third Embodiment> A third embodiment of the vibration type level detecting device of the present invention will be described with reference to the drawings.

FIG. 10 is a side cross-sectional view showing a partially broken view of a vibration type level detecting device according to a third embodiment of the present invention. In the above-described first embodiment, the vibration detecting element for detecting the vibration state of the folded vibration body is provided on the diaphragm portion 3 as the vibration detecting element 8.
However, in the vibration type level detecting device of the third embodiment, the strain detecting element in contact with the inner wall surface of the detecting pipe 4 is used.
12 was used as the vibration detection means. In FIG.
The components having the same functions as those of the vibration type level detecting device of the first embodiment described above are designated by the same reference numerals and the description thereof will be omitted.

FIG. 11 shows the vibration level detecting device shown in FIG.
FIG. 6 is a cross-sectional view taken along line X --- X. As shown in FIG. 11, the strain detecting element 12 is held by a holder 13 so as to contact the inner wall surface of the detecting pipe 4. This holder 13
Is shown in the front view of FIG. 12 and the side view of FIG. The holder 13 is made of an elastic body so as to always press the inner wall surface of the detection pipe 4, and the rectangular strain detection element 12 arranged at the top of the holder 13 is always in contact with the inner wall surface of the detection pipe 4. . Since the strain detecting element 12 is held by the holder 13 via the buffer material 14, the vibration received by the strain detecting element 12 is absorbed by the buffer material 14. The strain detecting element 12 is electrically connected to an electric circuit provided inside the base 1 via a lead wire (not shown).

The operation of the third embodiment of the vibration type level detecting device of the present invention constructed as above will be described.

As described in the first embodiment, the detection pipe 4
And the folded vibrating body composed of the closing portion 5 and the diaphragm 6,
While vibrating at the natural frequency, when the granular material, liquid, or the like that is the object to be detected comes into contact with the closed portion 5 or the detection pipe 4,
Vibration of the folding vibrator is attenuated or stopped. The damping state or the stopped state of the vibration of the folding vibrator is detected by the strain detecting element 12 in contact with the detecting pipe 4.
The vibration state detected by the strain detecting element 12 is converted into an electric signal and transmitted to an electric circuit provided inside the base 1.

FIG. 14 shows a block diagram of an electric circuit arranged inside the base 1 together with a schematic view of the vibration type level detecting device of the third embodiment. In FIG. 14, the vibrating element 7 which receives the vibrating signal from the amplifying circuit 9 vibrates the vibrating plate 6, and the folding vibrating body composed of the vibrating plate 6, the closing portion 5 and the detection pipe 4 is so-called folded back. Vibrate in vibration mode. Since vibration occurs in the detection pipe 4 due to the vibration of the folding vibration body, the strain of the detection pipe 4 is detected by the strain detecting element 12 in contact with the inner wall surface of the detection pipe 4, and the vibration of the folding vibration body is detected. Reliably detect the condition. The vibration state detected by the strain detecting element 12 is converted into an electric signal and input to the amplifier circuit 9. The received vibration signal inputted to the amplifier circuit 9 is amplified and inputted again to the vibrating element 7 (a positive feedback loop), and vibrates the folded vibrating body at the natural frequency.

As described above, the vibration state of the folded vibrating body is detected by the detection circuit which receives the vibration receiving signal from the strain detecting element 12.
The signal is detected by 10, and the detection circuit 10 outputs a detection signal corresponding to the vibration state of the folded vibrator. Therefore, this detection signal indicates the vibration state of the detection pipe 4 in direct contact with the object to be detected.

In the state where the folded vibrator vibrates at the natural frequency, the powder particles or the like as the object to be detected are stored in the container 28.
Detection pipe 4 of the vibrating body that has reached a predetermined level inside
When powder particles or the like come into contact with the closed portion 5 or the closed portion 5, the vibration state of the detection pipe 4 of the folded vibration body surely changes, and the change is remarkably shown in the vibration reception signal output from the strain detection element 12. The vibration reception signal output from the strain detection element 12 indicating the vibration state is transmitted to the detection circuit 10 provided inside the base portion 1 and supplied as a detection signal to a display device or an object to be detected which is provided outside the device. It is transmitted to the sending device.

Since the vibrating level detecting device of the third embodiment is constructed as described above, the granular material or the like as the object to be detected is firmly filled into the container 28 with a large pressure,
When the vibration of the detection pipe 4 of the detection unit 2 is strongly restrained by the powdery particles or the like and is forced to stop, the stopped state of the detection pipe 4 is strained by contact with the inner wall surface of the detection pipe 4. It surely appears in the output of the detection element 12. Therefore, the stopped state or the oscillated state of the detection pipe 4 in the detection unit 2 can be reliably and accurately detected by the strain detection element 12.

<Fourth Embodiment> A fourth embodiment of the vibration type level detecting device of the present invention will be described with reference to the drawings.

FIG. 15 is a side cross-sectional view showing a partially broken view of a vibration type level detecting device according to a fourth embodiment of the present invention. In the vibration type level detecting device of the fourth embodiment, a vibrating element 7 composed of a piezoelectric element and a vibration detecting element 15 are separately provided on both side surfaces of a diaphragm 6 of a folded vibrating body. Figure
In FIG. 15, components having the same functions as those of the vibration type level detecting device of the first embodiment described above are designated by the same reference numerals, and the description thereof will be omitted.

FIG. 16 shows a block diagram of an electric circuit arranged inside the base 1 together with a schematic view of the vibration type level detecting device of the fourth embodiment. In FIG. 16, the vibrating element 7 that receives the vibrating signal from the amplifier circuit 9 vibrates the vibrating plate 6, and causes the folding vibrating body composed of the vibrating plate 6, the closing portion 5, and the detection pipe 4 to vibrate back. Vibrate in mode. The vibration state of the folded vibrating body is detected by the vibration detecting element 14 formed of a piezoelectric element provided on one side surface of the vibrating plate 6 (a side surface where the vibrating element 7 is not provided). This vibration state is converted into an electric signal and input to the amplifier circuit 9. The received vibration signal inputted to the amplifier circuit 9 is amplified and inputted again to the vibrating element 7 (a positive feedback loop), and vibrates the folded vibrating body at the natural frequency.

As described above, the vibration state of the folding vibration body is detected by the detection circuit 10 which receives the vibration receiving signal from the vibration detecting element 14, and the detection circuit 10 detects the detection signal corresponding to the vibration state of the folding vibration body. Is output. Therefore, this detection signal indicates the vibration state of the vibrating body 6 forming the folded vibrating body.

In the state in which the folded vibrating body vibrates at the natural frequency, the powder particles or the like as the object to be detected are stored in the container 28.
Detection pipe 4 of the vibrating body that has reached a predetermined level inside
When the powder or granular material comes into contact with the closed portion 5 or the like, the vibration state of the folded vibrating body is surely changed. Therefore, this change in the vibrating state is expressed as a change in vibration of the vibrating body 6 of the folded vibrating body. This change in the vibrating body 6 is detected by the vibration detecting element 14 provided in the vibrating body 6 and appears in the vibration reception signal output from the vibration detecting element 14. The received signal from the vibration detecting element 14 is transmitted to the detection circuit 10 provided inside the base 1, and the detection circuit 10 outputs the detection signal.

[0048]

As described above, according to the vibration type level detecting device of the present invention, the folded vibrating body composed of the detecting pipe, the closing part and the vibrating plate is constituted to be supported by the diaphragm part. The folded vibrating body vibrates with high precision at a preset natural frequency without being affected by differences in the structure, material, mass or mounting method of the container or the like to be mounted. Therefore, it does not require complicated adjustment work, and since the protruding part of the container that stores the object to be detected is small inside, it can be mounted on a small container and has high detection sensitivity. The device can be obtained.

[Brief description of drawings]

FIG. 1 is a side sectional view showing a partially broken view of a vibration type level detecting device according to a first embodiment of the present invention.

FIG. 2 is a sectional view taken along line II --- II of the vibration type level detection device of FIG.

FIG. 3 is an explanatory view showing folding back vibration in the vibration type level detecting device of the present invention.

4 is a block diagram of an electric circuit in the vibration type level detection device of FIG.

5 is a sectional view showing a vibration type level detecting device using another vibration detecting element in place of the vibration detecting element of the vibration type level detecting device shown in FIG.

6 is a cross-sectional view showing a vibration type level detecting device using another vibration detecting element instead of the vibration detecting element of FIG.

FIG. 7 is a side sectional view showing a partially broken view of a vibration type level detecting device according to a second embodiment of the present invention.

8 is an enlarged sectional view showing a part of the vibration type level detecting device of FIG.

9 is a block diagram of an electric circuit in the vibration type level detection device of FIG.

FIG. 10 is a side sectional view showing a partially broken view of a vibration type level detecting device according to a third embodiment of the present invention.

FIG. 11 is a cross-sectional view taken along line X --- X of the vibration type level detection device of FIG.

FIG. 12 is a front view showing a holder in the vibration type level detection device of FIG.

13 is a side view showing a holder in the vibration type level detection device of FIG.

14 is a block diagram of an electric circuit in the vibration type level detection device of FIG.

FIG. 15 is a side sectional view showing a partially broken view of a vibration type level detecting device according to a fourth embodiment of the present invention.

16 is a block diagram of an electric circuit in the vibration type level detecting device of FIG.

FIG. 17 is a side sectional view showing a conventional vibration type level detecting device.

[Explanation of symbols]

1 base 2 detector 3 Diaphragm part 3a Diaphragm surface 4 Detection pipe 5 Blocking part 6 Vibration plate 7 Excitation element 8 Vibration detector 28 containers

Claims (6)

[Claims] 1. A base portion fixed to a container that stores an object to be detected, a diaphragm portion having a diaphragm surface substantially parallel to a mounting surface of the container to which the base portion is fixed, and a diaphragm surface of the diaphragm portion. A detection pipe portion that projects substantially at a right angle, a closing portion that closes the tip portion of the detection pipe portion, is disposed inside the detection pipe portion, one end is fixed to the closing portion, and the other end is free. An elongated rectangular diaphragm that is an end, a vibrating means that is fixed to the diaphragm, vibrates the diaphragm, and vibrates the detection pipe section, the closing section, and the diaphragm in a folding manner, and is provided in the diaphragm section. And a vibration detecting unit for detecting a vibration state of the folding vibration. 2. A base portion fixed to a container that stores an object to be detected, a diaphragm portion having a diaphragm surface substantially parallel to a mounting surface of the container to which the base portion is fixed, and a diaphragm surface of the diaphragm portion. A detection pipe portion that projects substantially at a right angle, a closing portion that closes the tip portion of the detection pipe portion, is disposed inside the detection pipe portion, one end is fixed to the closing portion, and the other end is free. An elongated rectangular diaphragm that is an end, a vibrating means that is fixed to the diaphragm, vibrates the diaphragm, and vibrates the detection pipe portion, the closing portion, and the diaphragm in a folding manner, and is provided in the closing portion. And a vibration detecting unit for detecting a vibration state of the folding vibration. 3. The vibration level detecting device according to claim 2, wherein the vibration detecting means is composed of an acceleration detecting element for detecting the acceleration of the closed portion. 4. A base portion fixed to a container accommodating an object to be detected, a diaphragm portion having a diaphragm surface substantially parallel to a mounting surface of the container to which the base portion is fixed, and a diaphragm surface of the diaphragm portion. A detection pipe portion that projects substantially at a right angle, a closing portion that closes the tip portion of the detection pipe portion, is disposed inside the detection pipe portion, one end is fixed to the closing portion, and the other end is free. An elongated rectangular diaphragm that is an end, a vibrating unit that is fixed to the diaphragm, excites the diaphragm, and vibrates the detection pipe section, the closing section, and the diaphragm back and forth, the detection pipe section A vibration-type level detecting device, comprising: a vibration detecting unit disposed inside by a supporting unit so as to press the inner surface of the detection pipe unit and detecting a vibration state of the folding vibration. 5. The vibration type level detecting device according to claim 4, wherein the vibration detecting means is composed of a strain detecting element held by a holder. 6. A base portion fixed to a container accommodating an object to be detected, a diaphragm portion having a diaphragm surface substantially parallel to a mounting surface of the container to which the base portion is fixed, and a diaphragm surface of the diaphragm portion. A detection pipe portion that projects substantially at a right angle, a closing portion that closes the tip portion of the detection pipe portion, is disposed inside the detection pipe portion, one end is fixed to the closing portion, and the other end is free. An elongated rectangular diaphragm that is an end, a vibrating means that is fixed to the diaphragm, excites the diaphragm, and vibrates the detection pipe portion, the closing portion, and the diaphragm in a folded manner, and is provided on the diaphragm. And a vibration detecting means for detecting a state of the folding vibration.