JPH07332502A - Mechanical seal diagnostic device - Google Patents

Abstract

PURPOSE:To carry out the preventive maintenance or defect detection of improper mounting or the like, in a seal part, by providing a sensor, provided in a mechanical seal, for detecting distortion or deformation or stress. CONSTITUTION:In the case that a seal function is insufficiently operated due to deterioration, improper mounting, etc., of a mechanical seal, a manner of applying a load against a seat ring 4 is changed to distort or deform the seat ring. A distortion detecting sensor 21, since it is provided in the seat ring 4, detects changing a distortion. As a result, by detecting changing the distortion of the seat ring 4, before causing a leak of gas and liquid, a hazardous condition can be sensed, replacing the mechanical seal can be executed, and since the preventive maintenance against deterioration or defect detection of improper mounting or the like can be performed, an effect is provided in preventing a disaster before occurrence.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mechanical seal diagnostic device capable of detecting preventive maintenance of a seal portion or detecting a failure such as a mounting failure.

[0002]

2. Description of the Related Art In pumps, agitators, etc., mechanical seals are used to prevent gas and liquid from leaking between a rotating shaft and a support frame. FIG. 5 is an explanatory view of a configuration of a conventional example that is generally used in the past. For example, “Vortex pump / gear pump / centrifugal fan” page 47
Yoshiteru Oshida et al. Published by Ohmsha, Ltd. February 1989 2
It is shown in the 5 day print issue.

In the figure, 1 is a rotating shaft, 2 is a sealed fluid 3
Is a sealed stuffing box. A seat ring 4 is attached to the stuffing box 2 via a buffer ring 5 and has a sealed end surface 6.

The buffer ring 5 prevents the sealing fluid 3 from leaking between the seat ring 4 and the stuffing box 2. A driven ring 7 is attached to the rotary shaft 1 via a spring 8 and is in contact with the seat ring 4 at the sealed end face 6.

The spring 8 moves the driven ring 7 to press the driven ring 7 when the sealed end surface 6 is worn. Also, the vibration prevents the seat ring 4 and the driven ring 7 from being separated from each other at the sealed end face 6. Reference numeral 9 is a shaft packing which is attached to the driven ring 7 and prevents the sealing fluid 3 from leaking between the driven ring 7 and the rotary shaft 1.

In the above structure, the sealing fluid 3 is mainly seated at the sealing end surface 6 between the seat ring 4 which is attached to the stuffing box 2 and does not rotate and the driven ring 7 which rotates together with the rotating shaft 1. 4 and the driven ring 7 slide on each other to prevent leakage.

[0007]

However, in such an apparatus, there is no method for detecting the deterioration of the seat ring 4 and the driven ring 7 which are the seal portions or the insufficient sealing state due to the improper mounting, and the sealing fluid 3 is used. It will be understood only after is leaked to the outside. Therefore, the management of the mechanical seal is based on a time basis, and the equipment is stopped at the time of regular inspection and (1) unconditionally replaced. (2) If it gets worse, replace it. (3) If they could still use it, they would continue to use it.

[0008] For example, see “Maintenance Handbook” page 819 edited by Japan Plant Maintenance Association.
Published by Japan Plant Maintenance Association, published on March 25, 1992 in print. Until now, the failure of the seal portion has been detected by leaking gas or liquid with a gas sensor or the like, but with this method, it can be detected only after the leak, which is often too late.

The present invention solves this problem. An object of the present invention is to provide a mechanical seal diagnostic device capable of preventive maintenance of a seal portion or failure detection such as mounting failure.

[0010]

In order to achieve this object, the present invention provides (1) a mechanical seal diagnosis of a mechanical seal device in which a mechanical seal having a seat ring and a driven ring is used in a seal portion. A mechanical seal diagnostic device comprising a sensor for detecting strain, deformation, or stress provided in the mechanical seal.

(2) In a mechanical seal diagnosing device of a mechanical seal device in which a mechanical seal having a seat ring and a driven ring is used in a seal portion, strain, deformation or stress provided in the seat ring is detected. A mechanical seal diagnostic device, comprising a strain sensor.

(3) In a mechanical seal diagnosing device of a mechanical seal device using a mechanical seal having a seat ring and a driven ring in a seal portion, a static seal between the seat ring and a supporting portion of the seat ring is used. A mechanical seal diagnostic device comprising a capacitance sensor for measuring a capacitance.

(4) In a mechanical seal diagnostic device of a mechanical seal device, which uses a mechanical seal having a seat ring and a driven ring in a seal portion, a static seal between opposed surfaces of the seat ring and the driven ring. A mechanical seal diagnostic device comprising a capacitance sensor for measuring a capacitance.

(5) In a mechanical seal diagnostic device of a mechanical seal device, which uses a mechanical seal having a seat ring and a driven ring in a seal portion, a gap between the seat ring and a support portion of the seat ring. A mechanical seal diagnostic device comprising a light detection sensor for measuring Is configured.

[0015]

In the above construction, when the mechanical seal fails, the sensor provided in the mechanical seal for detecting strain, deformation or stress detects the mechanical seal failure. Hereinafter, detailed description will be given based on examples.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is an explanatory view of the essential structure of an embodiment of the present invention. In the figure, the same symbols as those in FIG. 5 represent the same functions. Only parts different from FIG. 5 will be described below. 21 is
The strain detection sensor is provided by being attached, sputtered or embedded in the seat ring 4.

In the above structure, when the sealing function becomes insufficient due to deterioration of the mechanical seal, improper mounting, etc., the load applied to the seat ring 4 changes and the seat ring 4 is distorted or deformed. . Since the strain detection sensor 21 is provided on the seat ring 4, the strain detection sensor 21 detects a change in strain.

As a result, by detecting the change in strain of the seat ring 4, it is possible to detect a dangerous state before gas or liquid leakage occurs, the mechanical seal can be replaced, and deterioration can be prevented. Preventive maintenance or failure detection such as installation failure can be performed, which is effective in preventing disasters.

FIG. 2 is an explanatory view of the essential structure of another embodiment of the present invention. In the present embodiment, 31 is a deformation detection sensor that detects deformation of the seat ring 4. In this case, the capacitance type detection sensor 31 is used.

The capacitance type detection sensor 31 is a first one provided by being attached, sputtered or embedded in the seat ring 4.
The electrode 311 includes a second electrode 312 provided in a portion of the stuffing box 2 that is a support portion of the seat ring 4 that faces the first electrode 311.

In the above structure, when the sealing function becomes insufficient due to deterioration of the mechanical seal, improper mounting, etc., the load applied to the seat ring 4 changes and the seat ring 4 deforms. Capacitive detection sensor 31
Is provided between the seat ring 4 and the stuffing box 2, the capacitance type detection sensor 31 can detect the deformation of the seat ring 4.

As a result, by detecting the deformation of the seat ring 4, it is possible to detect a dangerous state before the leakage of gas or liquid occurs, the mechanical seal can be replaced, and preventive maintenance against deterioration can be performed. Alternatively, since it becomes possible to detect a failure such as a mounting failure, it is effective in preventing a disaster.

FIG. 3 is an explanatory view of the essential structure of another embodiment of the present invention. In the present embodiment, 41 is a deformation detection sensor that detects deformation of the seat ring 4. In this case, the capacitance type detection sensor 41 is used.

The capacitance type detection sensor 41 measures the capacitance between the surfaces of the seat ring 4 and the driven ring 7 which face each other. The capacitance type detection sensor 41 is the seat ring 4
And a ring-shaped first electrode 411 provided by sticking, sputtering or embedding, and a second electrode 412 provided at a portion of the driven ring 7 facing the first electrode 411.

With the above construction, when the sealing function becomes insufficient due to deterioration of the mechanical seal, improper mounting, etc., the load applied to the seat ring 4 changes and the seat ring 4 deforms. Capacitive detection sensor 41
Is provided between the seat ring 4 and the driven ring 7, the capacitance type detection sensor 41 can detect the deformation of the seat ring 4.

As a result, by detecting the deformation of the seat ring 4, it is possible to detect a dangerous state before the leakage of gas or liquid occurs, the mechanical seal can be replaced, and preventive maintenance against deterioration can be performed. Alternatively, since it becomes possible to detect a failure such as a mounting failure, it is effective in preventing a disaster. Further, since the capacitance type detection sensor 41 can be widely arranged along the surfaces of the seat ring 4 and the driven ring 7 which face each other, a high sensitivity can be obtained.

FIG. 4 is an explanatory view of the essential structure of another embodiment of the present invention. In this embodiment, 51 is a deformation detection sensor. In this case, the light detection sensor 51 is used. The light detection sensor 51 includes a light projecting optical fiber 511, a light receiving optical fiber 512, and a photoelectric conversion amplifier 513 embedded in the stuffing box 2 that is a support portion of the seat ring 4.

In the above structure, the light detection sensor 51
Is provided so as to detect the distance between the seat ring 4 and the stuffing box 2, the seat ring 4
When the seat ring 4 is deformed due to deterioration of the sheet ring 4 and the like, the light emitted from the light projecting optical fiber 511 is reflected on the surface of the seat ring 4 and the amount of light returning to the light receiving optical fiber 512 changes. Then, the output of the photoelectric conversion amplifier 513 changes accordingly, and the deformation of the seat ring 4 is detected.

As a result, the light emitted from the light projecting optical fiber 511 is reflected on the surface of the seat ring 4 and the change in the amount of light returning to the light receiving optical fiber 512 is detected, so that gas or liquid leakage occurs. Before, a dangerous state can be detected, the mechanical seal can be replaced, and preventive maintenance or failure detection such as installation failure can be performed, which is effective in preventing a disaster. Further, since the light detection sensor 51 is used, it is possible to obtain a mechanical seal diagnostic device that is resistant to electrical noise and has good noise resistance.

The detection sensors 21, 31, 41, 51
1 may be connected to the diagnostic alarm device 61 as shown in FIG. 1 to generate an alarm signal. In addition, the detected alarm signal is sent to the stuffing box 2
By using an LED or the like attached to the device itself for display, maintenance may be easily performed at the site where the device is arranged, such as during patrol. Further, the mounting method, position, etc. of the detection sensors 21, 31, 41, 51 are not limited to the embodiments.

[0031]

As described above, the present invention provides (1) a mechanical seal diagnostic device for a mechanical seal device, wherein a mechanical seal having a seat ring and a driven ring is used in a sealing portion. A mechanical seal diagnostic device comprising a sensor for detecting strain, deformation, or stress provided in the.

(2) In a mechanical seal diagnostic device of a mechanical seal device in which a mechanical seal having a seat ring and a driven ring is used in the seal portion, strain, deformation or stress provided in the seat ring is detected. A mechanical seal diagnostic device, comprising a strain sensor.

(3) In a mechanical seal diagnostic device of a mechanical seal device, which uses a mechanical seal having a seat ring and a driven ring in a seal portion, a static seal between the seat ring and a support portion of the seat ring. A mechanical seal diagnostic device comprising a capacitance sensor for measuring a capacitance.

(4) In a mechanical seal diagnostic device of a mechanical seal device, which uses a mechanical seal having a seat ring and a driven ring in the sealing portion, a static seal between the surfaces of the seat ring and the driven ring facing each other. A mechanical seal diagnostic device comprising a capacitance sensor for measuring a capacitance. Configured.

(5) In a mechanical seal diagnostic device of a mechanical seal device using a mechanical seal having a seat ring and a driven ring in the seal portion, a gap between the seat ring and a support portion of the seat ring. A mechanical seal diagnostic device comprising a light detection sensor for measuring

As a result, according to the first aspect of the invention, gas or liquid leakage occurs by detecting a change in the sensor for strain, deformation or stress provided in the mechanical seal. In advance, a dangerous state can be detected, the mechanical seal can be replaced, and preventive maintenance and failure detection such as installation failure can be performed, which is effective in preventing a disaster.

According to the second aspect of the invention, by detecting the change in the strain sensor provided in the seat ring for detecting strain or deformation or stress, it is possible to prevent gas or liquid from leaking. Since it is possible to detect a dangerous state, the mechanical seal can be replaced, and preventive maintenance can detect defective installation, it is effective in preventing disasters.

According to the invention of claim 3, by detecting the change of the electrostatic capacity sensor for measuring the electrostatic capacity between the seat ring and the support portion of the seat ring,
It is possible to detect a dangerous condition before gas or liquid leaks, replace mechanical seals, and prevent failures such as preventive maintenance and improper installation. There is.

According to the invention of claim 4, by detecting the change of the electrostatic capacity sensor for measuring the electrostatic capacity between the facing surfaces of the seat ring and the driven ring,
It is possible to detect a dangerous condition before gas or liquid leaks, replace mechanical seals, and prevent failures such as preventive maintenance and improper installation. There is. Further, since the capacitance type detection sensor can be widely arranged along the surfaces of the seat ring and the driven ring which face each other, a sensor with high sensitivity can be obtained.

According to the invention of claim 5, since the light detecting sensor for measuring the distance between the seat ring and the supporting portion of the seat ring is used, gas or liquid leakage occurs. Before doing so, it is possible to detect a dangerous state, replace the mechanical seal of the seal part, preventive maintenance and failure detection such as installation failure,
Effective in preventing disasters. Further, since the light detection sensor is used, a mechanical seal diagnostic device that is resistant to electrical noise and has good noise resistance can be obtained.

Therefore, according to the present invention, it is possible to realize a mechanical seal diagnostic device capable of detecting preventive maintenance of a seal portion or detecting a failure such as a mounting failure.

[Brief description of drawings]

FIG. 1 is an explanatory diagram of a main part configuration of an embodiment of the present invention.

FIG. 2 is an explanatory diagram of a main part configuration of another embodiment of the present invention.

FIG. 3 is an explanatory diagram of a main part configuration of another embodiment of the present invention.

FIG. 4 is an explanatory diagram of a main part configuration of another embodiment of the present invention.

FIG. 5 is an explanatory diagram of a configuration of a conventional example that is generally used in the past.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Rotating shaft 2 ... Stuffing box 3 ... Sealing fluid 4 ... Seat ring 5 ... Buffer ring 6 ... Sealing end face 7 ... Driven ring 8 ... Spring 9 ... Shaft packing 21 ... Strain detection sensor 31 ... Electrostatic capacitance type detection sensor 311 ... first electrode 312 ... second electrode 41 ... electrostatic capacitance type detection sensor 411 ... first electrode 412 ... second electrode 51 ... photodetection sensor 511 ... projection optical fiber 512 ... reception optical fiber 61 ... diagnosis alarm device

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yasunori Kobayashi 2-3-9 Nakamachi, Musashino City, Tokyo Yokogawa Electric Co., Ltd.

Claims (5)

[Claims] 1. A mechanical seal diagnosing device for a mechanical seal device, wherein a mechanical seal having a seat ring and a driven ring is used in a sealing portion, and a sensor for detecting strain, deformation or stress provided in the mechanical seal. A mechanical seal diagnostic device comprising: 2. A mechanical seal diagnostic device for a mechanical seal device, wherein a mechanical seal including a seat ring and a driven ring is used in a seal portion, the strain being provided in the seat ring, or strain for detecting deformation or stress. A mechanical seal diagnostic device comprising a sensor. 3. A mechanical seal diagnosing device for a mechanical seal device, wherein a mechanical seal comprising a seat ring and a driven ring is used in a seal portion, wherein an electrostatic charge between the seat ring and a supporting portion of the seat ring is provided. A mechanical seal diagnostic device comprising a capacitance sensor for measuring capacitance. 4. A mechanical seal diagnostic device for a mechanical seal device, wherein a mechanical seal comprising a seat ring and a driven ring is used in a sealing portion, wherein an electrostatic charge between opposing surfaces of the seat ring and the driven ring. A mechanical seal diagnostic device comprising a capacitance sensor for measuring capacitance. 5. A mechanical seal diagnostic device for a mechanical seal device, wherein a mechanical seal comprising a seat ring and a driven ring is used in a seal portion, wherein a gap between the seat ring and a support portion of the seat ring is set. A mechanical seal diagnostic device comprising a light detection sensor for measurement.