JPS6375383A - Multi-stage screw compressor - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a multistage screw compressor, and particularly to a multistage screw compressor that is suitable for efficiently obtaining low pressure air and high pressure air. It is.

[Conventional technology]

Conventionally, when low pressure and high pressure air were required at the same time,
The method shown in FIG. 4 is the most common. In FIG. 4, 1 is a suction filter provided in the gas suction part, 2 is
Compressor block after low pressure.

3 is an intercooler for cooling the high-temperature air compressed by the compressor block 2, 4 is a high-pressure stage compressor block, and 5 is an intercooler for cooling the high-temperature air compressed by the compressor block 4. A post-cooler, 6v'i, is used for cooling, and a pressure reducing valve is used to obtain low pressure air.

In such a device, in order to obtain low-pressure air, high-pressure air is reduced in pressure by a pressure-reducing valve, which causes the compressor to do extra work.

Figure 415 is a P-V diagram in which the horizontal axis is the flow iV and the vertical axis is the discharge pressure P.
V line a is a PV line in the high pressure stage air block 4. For example, the actual plan!・The amount of low-pressure air used accounts for 1/3 * In Figure 65, 8+
This results in extra work than the angle shown in line C. This work C increases as the pressure difference between the low pressure and the high pressure increases, and as the amount of low pressure air used increases.

In recent years, high pressure air has become a popular way to use compressed air.

As the amount of low-pressure air used changes, there is an increasing desire to obtain each type of air as efficiently as possible and to reduce electricity costs.

In addition, as a related compressor of this type, Japanese Patent Application Laid-Open No. 55-6
No. 0695 and the like.

[Problem that the invention seeks to solve]

The present invention was made to solve the problems of the prior art described above, and its object is to provide multi-stage screw compression that can efficiently obtain low-pressure air and high-pressure air.

[Means for solving problems]

Each of the above objects was equipped with a drive machine capable of speed control. This is achieved by connecting a plurality of screw compressors in series through conduits and by providing snow passages through which the respective discharge pressures can be extracted from each compressor.

[Effect]

In a screw compressor, high pressure air is generally obtained by connecting multiple compressor blocks in series.

Low-pressure air can be obtained by providing a conduit from the discharge port of the low-pressure stage block. Additionally, if the required flow rates of low-pressure air and high-pressure air change, this can be handled by controlling the speed of the drive machine.

〔Example〕

Hereinafter, one embodiment of the present invention will be described with reference to FIGS. 1 and 3. FIG. 1 is a system diagram of a two-stage screw compressor according to an embodiment of the present invention.

FIG. 2 is a diagram showing changes in efficiency depending on the rotation speed of the screw compressor, and 5i311 is a diagram showing changes in power depending on the rotation speed of the screw compressor. In FIG. 41, parts with the same reference numerals as those in FIG. 4 described above are the same parts as in the prior art, so the same reference numerals are given and the explanation thereof will be omitted. In the low-pressure stage block 2, the pressure is increased from atmospheric pressure to 21 V/iG, and in the high-pressure stage block 4, the pressure is increased from 2Kt1/crI4G to 7K9/dG. In this device, low pressure air is taken out from between the intercooler 3 and the high pressure stage block 4. High pressure air is taken out from the rear of the post-cooler 5. Further, the low pressure stage block 2 is provided with a drive machine 7 dedicated to the low pressure stage block, and the high pressure stage block 5 is provided with a drive machine 8 dedicated to the high pressure stage block. The low-pressure block and high-pressure block outlet pipes have their own pressure coils.
- 9° lO are installed, the output signals of which are transmitted via the respective converter 11.12 to the respective drive 7.8. Next, the control operation of the two-stage screw compressor configured as described above will be explained.

When the flow rate of low pressure air used changes, the pressure in the low pressure block outlet line changes. This pressure change is detected and a corresponding command is given to the drive machine. For example, when the flow rate of low pressure air used is reduced, the pressure in the low pressure block outlet line increases. The pressure controller 9 detects this pressure increase and gives a command to the drive machine 7 to lower the rotation speed via the converter 11.

When the rotation speed decreases, the discharge flow rate of the low pressure block decreases, so the pressure in the outlet line decreases and becomes stable near the set pressure of the pressure controller. When the flow rate of low-pressure air increases, the above operation is reversed. In addition, when the amount of high-pressure air used decreases, the pressure in the high-pressure block outlet line increases, but the pressure controller IO detects this pressure increase and sends the rotation speed to the drive machine 8 via the converter 12. give a command to lower the When the rotational speed of the high-pressure block decreases, the pressure in the low-pressure block outlet pipe increases, but the pressure controller 9 detects this pressure increase and gives a command to the drive machine 7 via the converter 11 to lower the rotational speed. This results in
The high pressure block outlet line pressure is close to the setting value of the pressure controller 10, and the low pressure block outlet line pressure is close to the set value of the pressure controller 9 and is stable. This operation is reversed when the flow rate of high-pressure air increases.

As shown in FIG. 2, the screw compressor is capable of efficient reverse rotation with almost no change in efficiency when the rotor circumferential speed is in the range of 60111/s to 100 m/s. Further, as shown in FIG. 3, when the rotational speed of the screw compressor is reduced, that is, the peripheral speed of the rotor, the power decreases in proportion to this. Therefore, according to this embodiment, low-pressure air and high-pressure air can be efficiently extracted according to the required flow rates of low-pressure air and pressurized air without overcompressing and by minimizing power loss.

〔Effect of the invention〕

According to the present invention, since no pressure reducing valve is used to obtain low-pressure air, there is no power loss due to overcompression of the low-pressure air, and the speed of each stage of compressor can be controlled individually. Because it is equipped with a driving machine.

It is possible to provide a multi-stage screw compressor that can efficiently take out required amounts of low-pressure air and high-pressure air at the same time while minimizing power loss.

[Brief explanation of the drawing]

Figure 1 is a system diagram of a two-stage screw compressor showing four examples of the present invention, Figure 1@2 is a diagram showing the rotation speed and efficiency of the screw compressor, and Figure 3 is the rotation of the screw compressor. Fig. 4 is a system diagram of a conventional two-stage screw compressor, and Fig. 5 is a P-v diagram of the two-stage screw compressor. 2...Low pressure block, 4...High pressure stage block, 6...
...Pressure reducing valve, 7.8...Driver, 9.10...Pressure controller, 11.12...Converter.

Claims (1)

[Claims] 1. In multiple screw compressors equipped with a drive machine and capable of speed control, these compressors are connected in series, a bypass line is provided at the discharge port of each compressor, and each compressor is A multi-stage screw compressor characterized by speed control based on each discharge pressure.