JP3692239B2 - Dry gas seal - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a dry gas seal which is provided on the shaft end side of a rotating shaft in a rotating device such as a compressor and which blocks communication of fluid between the inside and outside of the device.
[0002]
[Prior art]
Conventionally, various types of seals have been adopted to seal the inside of equipment such as a compressor.
[0003]
Among them, the dry gas seal, which is one of them, has advantages such as no need for a hydraulic pressure supply device, low power loss because it is a non-contact type, and almost no leakage of seal gas. For this reason, the number of applications to actual machines has increased rapidly in recent years.
[0004]
However, since this dry gas seal is a precision instrument, it dislikes the mixing of solids such as dust and liquid into the sliding part. Usually, it is dry at a specialized factory or specialized manufacturer that has been specified. After being assembled as a gas seal, the cartridge is delivered to a factory or manufacturer of a device in which the cartridge is assembled.
[0005]
Therefore, for example, when adopting a dry gas seal as a shaft seal of a compressor, the cartridge in the assembled state is delivered to a compressor factory or a compressor manufacturer, and the delivery side is assembled with a cartridge in the compressor machine, It is designed to be completed as an integrated device.
[0006]
An example of such a conventional dry gas seal will be described with reference to FIG.
Reference numeral 1 denotes a rotary shaft of a rotary machine such as a compressor. A cartridge configured by combining part numbers 2 to 10 described below is incorporated into the rotary shaft 1 to complete a dry gas seal of the rotary machine. Yes.
[0007]
That is, when viewing the cartridge of the dry gas seal, first, the dry gas seal sleeve 2 is disposed on the inner peripheral side thereof, and a pair of tolerance rings 3 and 3 are disposed on the inner diameter thereof at intervals in the axial direction. .
[0008]
Each tolerance ring 3, 3 is formed by forming a leaf spring in a circumferential shape in accordance with the inner diameter of the dry gas seal sleeve 2, and is fixed with an adhesive, and is unbalanced even under high centrifugal force due to high-speed rotation. It consists of leaf springs with very high spring characteristics so as not to cause
[0009]
A seal housing 6 is disposed on the outer peripheral side of the dry gas seal sleeve 2, and a retainer 9 is disposed by being biased by a spring member 10 from the seal housing 6 toward the inside of the machine. A seal ring 8 to be supported and a mating ring 7 supported on the dry gas seal sleeve 2 side are arranged so as to face each other to constitute a main part of the cartridge.
[0010]
Reference numerals 4 and 5 are O-rings, respectively. The O-ring 4 is located between the dry gas seal sleeve 2 and the rotary shaft 1 and blocks the sliding surface between the dry gas seal sleeve 2 and the rotary shaft 1 from the inside of the machine. The O-ring 5 is located between the seal housing 6 and the retainer 9 and serves to block the inside and outside of the machine.
[0011]
The cartridge configured as described above is mounted on the rotary shaft 1 and the position is fixed by a seal nut 11 to form a dry gas seal.
[0012]
[Problems to be solved by the invention]
Since the conventional dry gas seal has a structure in which the dry gas seal sleeve 2 is supported by the tolerance rings 3 and 3 made of leaf springs having very high spring characteristics as described above, a large force is required at the time of incorporation and release. On the other hand, it is easy for the adhesive part to come off, and it takes a lot of time and labor to install and release.
[0013]
In addition, although not shown in the drawings, some other conventional devices use an O-ring instead of the above-described tolerance ring 3, but the O-ring is a mating ring 7 and a dry gas seal sleeve 2 serving as a rotating body. In addition to requiring a large amount of force when assembled and opened, there are many problems that the O-ring protrudes from the groove or the surface is stripped. .
[0014]
The present invention eliminates these problems in the conventional apparatus, requires only a small force when installing and opening a cartridge such as a dry gas seal sleeve, and the operation can be performed easily and quickly, and also increases safety and reliability. It is an object of the present invention to provide an obtained dry gas seal.
[0015]
[Means for Solving the Problems]
The present invention has been made to solve the above-described problems, and each of the boundary surfaces between a rotating shaft and a dry gas sleeve fitted to the rotating shaft and held on the rotating shaft and fixed in the axial direction by a seal nut is provided. In addition to forming a tapered shape, seal members are disposed near both the left and right ends of the inner diameter of the dry gas sleeve, and a volatile fluid is supplied to the boundary surface between the seal members from the shaft end. A dry gas seal having an open fluid passage is provided.
[0016]
That is, according to the present invention, the dry gas sleeve fitted to the rotating shaft is fitted to the rotating shaft and held on the rotating shaft, and is fixed in the axial direction by the seal nut. This series of operations can be performed very easily and reliably, and the efficiency of the operations can be improved particularly at the installation site.
In addition, a seal member is disposed near the left and right ends of the inner diameter of the dry gas sleeve at the boundary surface between the rotating shaft and the dry gas sleeve, and volatilizes at the boundary surface between the dry gas sleeve and the rotating shaft between the seal members. The outlet of the fluid passage for supplying the ionic fluid is opened, and fluid pressure is applied to the boundary surface through the fluid passage, so that the inner diameter of the dry gas sleeve is expanded to reduce the frictional resistance of the seal member such as an O-ring. Incorporation into a rotating shaft such as a dry gas sleeve and opening with a small force are possible.
[0017]
In addition, since the boundary surface between the rotating shaft and the dry gas sleeve fitted to the rotating shaft is formed in a tapered shape, when the fluid pressure is applied by the volatile fluid from the fluid passage opening in the boundary surface at the time of opening. The dry gas sleeve moves in the axial direction and can be easily opened.
Here, the fluid pressure applied to the boundary surface is obtained by a volatile fluid, so that even if the fluid may enter the inside of the dry gas seal at the time of opening, the fluid pressure may be increased due to volatility. Since it does not remain, no adverse effect is caused on the dry gas seal surface.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described with reference to FIGS.
[0019]
In addition, about the same site | part as the above-mentioned conventional thing, the same code | symbol is attached | subjected and shown in a figure, the overlapping description is abbreviate | omitted and it demonstrates focusing on the characteristic part of this Embodiment.
[0020]
That is, in the present embodiment, the inside and outside of the machine are shut off by the dry gas seal sleeve 22 and the seal housing 6 and the O-ring 5 on the outer periphery thereof, and the retainer 9 urged in the machine direction in the axial direction by the spring member 10. The seal ring 8 supported on the 9 side, and the mating ring 7 etc. supported on the dry gas seal sleeve 22 side facing the seal ring 8 constitute a dry gas seal cartridge as an aggregate, which is a special factory. Or it is the same as that of the above-mentioned conventional example that it is manufactured by a specialized manufacturer.
[0021]
However, in the present embodiment, the boundary surfaces of the dry gas seal sleeve 22 and the rotary shaft 21 fitted thereto are formed in a tapered shape, and are fitted by the boundary surfaces.
[0022]
The dry gas seal sleeve 22 is held with respect to the rotary shaft 21 by two O-rings 24 and 24 serving as seal members near the end faces on both the left and right ends, and is fixed in the axial direction by the seal nut 11. .
[0023]
In addition, a fluid passage 23 is disposed inside the rotary shaft 21 from the shaft end, and the fluid passage 23 is located at the boundary surface between the dry gas seal sleeve 22 and the rotary shaft 21 between the two O-rings 24, 24. The fluid pressure can be propagated through the pipe 33 and the adapter 34 from the fluid pump 32 which is opened and is provided outside the boundary surface.
[0024]
In the present embodiment, as described above, the fluid passage 23 for propagating the fluid pressure is provided inside the rotary shaft 21, and the two O-rings 24, 24 arranged as seal members on the inner peripheral portion of the dry gas seal sleeve 22. Since the fluid passage 23 is opened in between and the fluid pressure from the fluid pump 32 provided outside is applied, the inner diameter of the dry gas seal sleeve 22 swells, and the frictional resistance of the O-rings 24 and 24 is increased. Will be smaller, and mounting and opening will be done with a small force.
[0025]
The adjustment of the holding force of the dry gas seal with respect to the rotating shaft 21 can be obtained by changing the amount of crushing allowance of the O-rings 24, 24. This is a tolerance ring constituted by a leaf spring having high spring characteristics in the conventional apparatus. The function is the same as that obtained in 3.
[0026]
Further, since the crushing cost of the O-rings 24, 24 can be reduced by inflating the inner diameter of the dry gas seal sleeve 22 by the fluid pressure as described above, the friction resistance at the time of assembly / opening can be greatly reduced. There is no problem that the O-ring protrudes from the groove or the surface is peeled when opened.
[0027]
When the dry gas seal is assembled to the specified position, the fluid pressure is released to increase the crushing cost of the O-rings 24, 24, and the necessary holding force can be obtained. By applying, the dry gas seal moves in the axial direction in combination with the tapered shape of the boundary surface, and the opening becomes easy.
[0028]
Although the present invention has been described with reference to the illustrated embodiment, the present invention is not limited to this embodiment, and it goes without saying that various modifications may be made to the specific structure within the scope of the present invention. Absent.
[0029]
For example, if an O-ring cannot be used as a sealing member for a dry gas seal sleeve due to the so-called gas conditions such as the corrosiveness and temperature of the gas to be applied, a sealing element coated with a metal leaf spring with a sealing material is used instead. It is good also as a structure which employs.
[0030]
Further, a volatile fluid may be employed as the fluid employed for pressure propagation in order to eliminate the adverse effect on the dry gas seal surface.
[0031]
【The invention's effect】
As described above, according to the present invention, the boundary surface between the rotating shaft and the dry gas sleeve fitted to the rotating shaft and held on the rotating shaft and fixed in the axial direction by the seal nut is formed in a tapered shape. In addition, seal members are disposed near both left and right ends of the inner diameter of the dry gas sleeve, and fluid passages for supplying a volatile fluid to the boundary surface between the seal members from the shaft end portion are opened. Since the dry gas seal is configured, the dry gas sleeve fitted to the rotary shaft is fitted to the rotary shaft, held on the rotary shaft, and fixed in the axial direction by a seal nut. The series of operations of holding and fixing can be performed very easily and surely, and the efficiency of operations can be improved particularly at the installation site.
In addition, a seal member is disposed near the left and right ends of the inner diameter of the dry gas sleeve at the boundary surface between the rotary shaft and the dry gas sleeve, and an outlet is provided between the seal members at the boundary surface between the dry gas sleeve and the rotary shaft. Since the fluid pressure is applied to the boundary surface by a volatile fluid through the fluid passage opened, the inner diameter of the dry gas sleeve is expanded to reduce the frictional resistance of the sealing member such as the O-ring. And the like can be incorporated into the rotating shaft and opened with a small force.
[0032]
In addition, since the boundary surface between the rotating shaft and the dry gas sleeve fitted to the rotating shaft is formed in a tapered shape, fluid pressure is applied by a volatile fluid from a fluid passage that opens to the boundary surface at the time of opening. Thus, the dry gas sleeve moves in the axial direction in combination with the same pressure and the tapered shape, and can be easily opened.
In addition, since the fluid pressure applied to the boundary surface is obtained by a volatile fluid, even if the fluid may enter the inside of the dry gas seal at the time of opening, the fluid is volatilized. Therefore, it does not remain inside due to the property, and the dry gas sealing surface is not adversely affected.
[Brief description of the drawings]
FIG. 1 is a half cut sectional view showing an outline of a dry gas seal according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view showing an outline of a conventional dry gas seal.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Rotating shaft 2 Dry gas seal sleeve 3 Tolerance ring 4 O ring 5 O ring 6 Seal housing 7 Mating ring 8 Seal ring 9 Retainer 10 Spring member 11 Seal nut 21 Rotating shaft 22 Dry gas seal sleeve 23 Fluid passage 24 O ring 32 Fluid pump 33 Pipe 34 Adapter

Claims (1)

The boundary surfaces between the rotating shaft and the dry gas sleeve fitted to the rotating shaft and held on the rotating shaft and fixed in the axial direction by the seal nut are respectively formed in a tapered shape, and both the left and right ends of the inner diameter of the dry gas sleeve A dry gas seal characterized in that a seal member is provided near each portion, and a fluid passage for supplying a volatile fluid is opened from the shaft end portion to the boundary surface between the seal members.

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