JP3534627B2 - Centrifugal compressor - Google Patents

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a centrifugal compressor,
It is useful when applied to a separation gas supply section of an industrial centrifugal compressor.

[0002]

2. Description of the Related Art FIG. 2 is a vertical sectional view of a separation gas supply section of a conventional centrifugal compressor. As shown in the figure, the separation labyrinth 6 is attached to the bolt 10 at the gas seal stationary body 3 provided inside the seal holder 4 in the radial direction.
It is fixed by. A stop ring 7 that is divided into three in the circumferential direction is provided on the outer side in the radial direction of the separation labyrinth 6. Since a force is applied to the gas seal stationary body 3 toward the outer side of the machine due to the differential pressure, a stop ring 7 is provided for the purpose of restraining the axial movement of the gas seal stationary body 3 at this time (preventing slipping out). There is. It should be noted that the stop ring 7 is divided into three parts because when the stop ring 7 is formed into a ring shape without being divided, the stop ring 7 is separated from the seal holder 4 due to the shape of the seal holder 4.
This is because it cannot be incorporated into. That is, the stop ring 7 can be incorporated in the seal holder 4.

A passage 3a is formed in the gas seal stationary body 3, and the passage 3a and the passage 6a formed in the separation labyrinth 6 communicate with each other to form a separation gas passage 9. One end side of the separation gas passage 9 communicates with the separation gas supply port 8 formed in the seal holder 4.

On the other hand, the gas seal rotor 2 is provided on the rotary shaft 1 side.
And a lock nut 5 are provided. Lock nut 5
Is provided to prevent the gas seal rotor 2 from coming off. Then, the gas is allowed to flow through the seal gap C ₁ formed between the lock nut 5 and the separation labyrinth 6. That is, the gas is supplied from the separation gas supply port 8 through the separation gas passage 9 to the seal gap C _{1 as} shown by the arrow in FIG.

Therefore, in the centrifugal compressor provided with the separation gas supply section having the above-mentioned structure, the gas is caused to flow through the separation gas passage 9 into the seal gap C ₁ between the separation labyrinth 6 and the lock nut 5, so that It is possible to prevent the bearing lubricating oil from leaking inside the machine.

[0006]

The above-mentioned conventional centrifugal compressor has the following problems.

As described above, a force for pushing the stop ring 7 to the outside of the machine acts on the gas seal stationary body 3 due to the differential pressure. The gas seal is a device that uses the gas as a sealing medium to prevent the process gas inside the machine from leaking to the outside of the machine. Therefore, the gas seal is supplied with a seal gas at a pressure slightly higher than the process gas from the inside of the machine. . On the other hand, the outside of the separation labyrinth 6 is at atmospheric pressure. That is, the differential pressure is a differential pressure between the seal gas supply pressure and the atmospheric pressure, and the gas seal stationary body 3 pushes the stop ring 7 to the outside of the machine by this differential pressure. At this time, since the stop ring 7 is divided into three parts and has low rigidity, the force received from the gas seal stationary body 3 may cause the stop ring 7 to be inclined and deformed as shown by the one-dot chain line in FIG. Therefore, in order to prevent such deformation of the stop ring 7, it is necessary to make the cross-sectional area of the stop ring 7 as large as possible.

On the other hand, the centrifugal compressor improves the operation stability.
In order to make it possible, it is necessary to make the rotary shaft 1 as short as possible.
It However, as described above, the deformation of the stop ring 7
Use a stop ring 7 with a large cross section to prevent
And the length L of the seal holder 4 ₁Becomes longer and its conclusion
As a result, the rotating shaft 1 becomes long.

Therefore, in view of the above-mentioned prior art, the present invention is a separation in which the stop ring can be prevented from being deformed and the rotary shaft can be made as short as possible to improve the stability of operation of the centrifugal compressor. An object of the present invention is to provide a centrifugal compressor provided with a gas supply unit.

[0010]

[Means for Solving the Problems] First to solve the above problems
In the centrifugal compressor of the invention, the separation labyrinth is fixed to the gas seal stationary body provided inside the seal holder in the radial direction, and the stop ring divided into a plurality in the circumferential direction is provided outside the separation labyrinth in the radial direction. A separation gas supply unit configured to prevent the bearing lubricating oil on the outside of the machine from leaking to the inside of the machine by causing gas to flow in the seal gap formed between the separation labyrinth and the rotary shaft side. In the centrifugal compressor including, a retaining ring is provided inside the stop ring in the radial direction.

A centrifugal compressor according to a second invention is the centrifugal compressor according to the first invention, wherein a first passage is formed in the stop ring, and a second passage is formed in the first passage and the retaining ring. It is characterized in that a passage and a third passage formed in the separation labyrinth communicate with each other to form a separation gas passage for flowing the gas.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a vertical sectional view of a separation gas supply section of a centrifugal compressor according to an embodiment of the present invention.

<Structure> As shown in FIG. 1, the gas seal stationary body 13 provided inside the seal holder 14 in the radial direction.
A separation labyrinth 16 is fixed by a bolt 20. Also, the separation labyrinth 1
A stop ring 17 which is divided into three in the circumferential direction is provided on the outer side in the radial direction of 6 so as to be incorporated into the seal holder 14. The stop ring 17 restrains the axial movement of the gas seal stationary body 13 when a force is exerted on the gas seal stationary body 13 in the machine outer direction due to the pressure difference between the seal gas supply pressure and the atmospheric pressure. It is provided for the purpose.

A retaining ring 21 is provided inside the stop ring 17 in the radial direction. The retaining ring 21 is located between the stop ring 17 and the separation labyrinth 16, and is fixed to the gas seal stationary body 13 with the bolt 20 together with the separation labyrinth 16. Retaining ring 21
Is a high-rigidity material formed of a high-strength material in a ring shape that is not divided in the circumferential direction.

The stop ring 17 has a passage 17a.
The passage 17a, the passage 21a formed in the retaining ring 21, and the passage 16a formed in the separation labyrinth 16 communicate with each other to form a separation gas passage 19. One end of the separation gas passage 19 is provided with a seal holder 14
It is connected to the separation gas supply port 18 formed in the.

That is, conventionally, as shown in FIG. 2, a passage 3a is formed in the gas seal stationary body 3 and no passage is formed in the stop ring 7, but in the present embodiment, the gas seal stationary body 13 is formed. Has no passage formed therein, and the stop ring 17 has a passage 17a formed therein. For this reason,
The gas seal stationary body 13 is shorter than the conventional gas seal stationary body 3 by the amount of the passage 3a. Accordingly, the stop ring 17 is located inside the machine as compared with the conventional stop ring 7, and the length L ₂ of the seal holder 14 is shorter than the length L ₁ of the conventional seal holder 4 accordingly. There is.

On the other hand, a gas seal rotor 12 and a lock nut 15 are provided on the rotary shaft 11 side. The lock nut 15 is provided to prevent the gas seal rotating body 12 from coming off. Then, the gas is allowed to flow through the seal gap C ₂ formed between the lock nut 15 and the separation labyrinth 16. That is, the gas is supplied from the separation gas supply port 18 through the separation gas passage 19 to the seal gap C _{2 as} shown by the arrow in FIG.

<Operation / Effect> In the centrifugal compressor provided with the separation gas supply unit having the above-mentioned configuration, by flowing the gas through the separation gas passage 19 into the seal gap C ₂ between the separation labyrinth 16 and the lock nut 15, It is possible to prevent the bearing lubricating oil on the outside of the machine from leaking into the inside of the machine.

By providing the retaining ring 21 inside the stop ring 17 in the radial direction, the rigidity of the stop ring 17 is increased by the combined action of the retaining ring 21 and the stop ring 17. Therefore, even if the stop ring 17 is pushed to the outside of the machine by the gas seal stationary body 13 due to the pressure difference between the seal gas supply pressure and the atmospheric pressure, the stop ring 17 does not tilt and deform.

That is, when the gas seal stationary body 13 pushes the stop ring 17 to the outside of the machine, the stop ring 17 itself is divided into three parts and tends to incline because of its low rigidity. The inner retaining ring 21 holds and prevents the stop ring 17 from tilting. Therefore, the rigidity of the stop ring 17 is substantially increased, and even if the stop ring 17 is pushed by the gas seal stationary body 13, the stop ring 17 is not inclined and deformed.

Therefore, as in the conventional case, the stop ring 17 is
It is not necessary to increase the cross-sectional area of the stop ring 17 in order to prevent the deformation of the stop ring 17. Therefore, the length L ₂ of the seal holder 4 can be shortened as compared with the conventional case, and as a result, the rotating shaft 11 can be shortened and the stability of the operation of the centrifugal compressor is improved.

Moreover, since the retaining ring 21 is provided on the radially inner side of the stop ring 17, the rigidity of the stop ring 17 is increased and the stop ring 17 does not tilt even when pushed by the gas seal stationary body 13. Since the passage 17a can be formed in the stop ring 17, the gas seal stationary body 1
It is not necessary to form a passage in 3.

In other words, if a passage is formed in the conventional stop ring 7 shown in FIG. 2 and the passage is communicated with the passage 6a of the separation labyrinth 6, a separation gas passage 3 is formed. When the stop ring 7 is tilted by being pushed by, the position of the passage of the stop ring 7 and the passage 6 of the separation labyrinth 6
Since the position of “a” is displaced and the two do not communicate with each other, gas cannot be supplied to the seal gap C ₁ .

On the other hand, in this embodiment, the stop ring 1 is combined with the retaining ring 21.
7, the passage 17a is formed in the stop ring 17, and the separation gas passage 19 is formed by the passage 17a, the passage 21a formed in the retaining ring 21, and the passage 16a formed in the separation labyrinth 16. Gas seal stationary body 1
Stop ring 17 tilts when pushed by 3
There is no fear that the 6a, 17a, and 21a will be out of communication, and the gas can be reliably supplied to the seal gap C ₂ .

Since the passage of the gas seal stationary body 13 can be eliminated, the gas seal stationary body 13 can be shortened accordingly. Therefore, the seal holder 14 can be further shortened, and as a result, the rotating shaft 11 can be further shortened, and the stability of operation of the centrifugal compressor can be further improved.

[0027]

As described above in detail with the embodiments of the invention, in the centrifugal compressor of the first invention, the separation labyrinth is fixed to the gas seal stationary body provided inside the seal holder in the radial direction. A plurality of stop rings are provided on the outer side in the radial direction of the separation labyrinth, and a gas is caused to flow through a seal gap formed between the separation labyrinth and the rotary shaft side, whereby a machine is provided. In a centrifugal compressor having a separation gas supply unit configured to prevent the outer bearing lubricating oil from leaking to the inside of the machine, a retaining ring is provided radially inside the stop ring. To do.

Therefore, according to the centrifugal compressor of the first aspect of the present invention, since the retaining ring is provided inside the stop ring in the radial direction, the rigidity of the stop ring is increased by the combined action of the retaining ring and the stop ring. Since the height of the stop ring is high, the stop ring does not tilt and deform even if it is pushed to the outside of the machine by the gas seal stationary body due to the differential pressure. Absent. Therefore, the length of the seal holder can be shortened as compared with the conventional case, and as a result, the rotating shaft can be shortened and the stability of the operation of the centrifugal compressor can be improved.

A centrifugal compressor according to a second aspect of the present invention is the centrifugal compressor according to the first aspect, wherein a first passage is formed in the stop ring, and a second passage is formed in the first passage and the retaining ring. It is characterized in that a passage and a third passage formed in the separation labyrinth communicate with each other to form a separation gas passage for flowing the gas.

Therefore, according to the centrifugal compressor of the second aspect of the present invention, by providing the retaining ring on the inner side of the stop ring in the radial direction, the rigidity of the stop ring becomes high and the stop is achieved even if the stop ring is pushed by the stationary body. Since the ring is no longer inclined, as described above, the first passage is formed in the stop ring, and the first passage is communicated with the second passage formed in the retaining ring and the third passage formed in the separation labyrinth. Even if the separation gas passage is configured by using the above, the gas can be reliably supplied to the seal gap. Since the passage of the gas seal stationary body can be eliminated, the gas seal stationary body can be shortened accordingly. Therefore, the seal holder can be further shortened, and as a result, the rotating shaft can be further shortened, and the operation stability of the centrifugal compressor can be further improved.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view of a separation gas supply unit of a centrifugal compressor according to an embodiment of the present invention.

FIG. 2 is a vertical cross-sectional view of a separation gas supply unit of a conventional centrifugal compressor.

[Explanation of symbols]

11 rotation axis 12 Gas seal rotor 13 Gas seal stationary body 14 seal holder 15 Lock nut 16 Separation Labyrinth 16a passage 17 stop ring 17a passage 18 Separation gas supply port 19 Separation gas passage 20 volts 21 Retaining Ring 21a passage

Claims (2)

(57) [Claims] 1. A separation labyrinth is fixed to a gas seal stationary body provided inside a seal holder in a radial direction, and a stop ring divided into a plurality in a circumferential direction is provided on an outside in a radial direction of the separation labyrinth. A separation gas supply unit configured to prevent the bearing lubricating oil on the outside of the machine from leaking to the inside of the machine by causing a gas to flow through a seal gap formed between the separation labyrinth and the rotary shaft side. In the centrifugal compressor, a retaining ring is provided inside the stop ring in the radial direction. 2. The centrifugal compressor according to claim 1, wherein the stop ring has a first passage, and the first passage and a second passage formed in the retaining ring.
A centrifugal compressor characterized in that a separation gas passage for communicating the gas is formed by communicating with a third passage formed in the separation labyrinth.