DE102006047891A1 - Oil-immersed screw compressor with axial force relief device - Google Patents

Abstract

In an arrangement on an oil-flooded screw compressor having two rotors, a main rotor having substantially convex tooth flanks and a side rotor having substantially concave flank portions, the main rotor having a drive shaft end and an oil pressure applied balance piston which is supplied with oil via a pressure line, and both rotors Enclosed by housing parts and a control device is arranged on or in the compressor, whose inputs are connected at least with measuring means for the pressure on the suction side and with measuring means for determining the drive power means according to the invention are arranged to change the pressure in the pressure line to the balance piston and it there is a control technology linkage of these means to the control device and the control device has an algorithm between operating parameters, which are input variables in the control device, and the pressure in the pressure line to Au match piston on.

Description

field of use

The The invention relates to an arrangement of oil-immersed screw compressors with two rotors, a main rotor with substantially convex tooth flanks and a secondary rotor having substantially concave flank sections, being on a shaft portion of the main rotor to relieve the axial thrust a rotating disc, the balance piston, non-contact is arranged sealingly, which is acted upon with pressure oil, after passing the sealing gap of the balance piston in areas of lower pressure dissipated is, and axially counteracts the gas force on the main rotor. Both Rotors are made of housing parts enclosed. The profile parts of the rotors have shaft extensions, the be surrounded by radial bearings and where the axial force is absorbed by thrust bearing. The in the axial direction of the rotors acting gas power on the main rotor is in relation to the secondary rotor relatively large. Therefore the main rotor has the balance piston. The force on the axial bearing of the main rotor is a resultant of the difference of the gas force acting on the rotor and the unloading force acting on the balance piston. The working space, also referred to as the working chamber, is replaced by the Tooth space of the two rotors, adjacent housing parts and other adjacent components, such as a control slide, educated. Depending on the position of the control slide peripheral wall parts released in the area of the cylinder sections comprising the rotors. Through a channel system in the housing flows already sucked Working medium as a bypass from the decreasing as a result of rotor rotation Tooth spaces through the released peripheral wall parts back to the suction side. That influences the flow rate of the compressor and the axial force on the storage.

ever according to suction pressure, final pressure, size of the outlet window and position of the control slide changes the resultant results from the difference of the forces acting on the rotor Gas force and the relief force acting on the balance piston.

The Resulting acts depending on the operating condition of the compressor in the one way or the other. As a result, the thrust bearings become more or less heavily burdened in one direction or the other. It changes in the area of the axial bearing play and the elastic deformation of the bearing, the distance between the main rotor and the frontal Housing walls on the suction side and on the pressure side of the rotor profile. The discharge force can The axial gas force at the main rotor at part load operation also significantly exceed. Therefore, in a known technical solution, the discharge effect of the balance piston at part load operation of the compressor switched off.

adversely is that then the entire gas power in a larger part load range on the Thrust bearing acts and thus the life of the thrust bearing impermissibly shortened.

The The aim of the invention is to avoid the disadvantages mentioned and to provide an arrangement on a screw compressor the bearing load kept at a constant low level becomes.

According to the essence The invention is the oil pressure on the balance piston - and so that the relieving force of the balance piston - depending regulated by operating parameters. The output signal of a control device preferably controls the pressure on the balance piston in dependence the drive torque to the drive shaft of the compressor and dependent on from the pressure on the suction side of the compressor. For this purpose, the output signal acts the control device in a first arrangement according to the invention to a pressure regulating valve, which in the oil supply line from a pressure source is arranged to balance piston. The control algorithm is like this designed so that the pressure on the balance piston increases when the Drive torque increases or if the pressure on the suction side increases or if in the combination of increasing drive torque and increasing pressure on the suction side changes occur. Advantageous There is a control algorithm that takes these parameters into account and calculates the required pressure on the balance piston.

In a technical advantageous according to the invention execution are the means of realization of this control task a control device into which the expected speed, e.g. 49 1 / s, and the voltage of a 3-phase asynchronous electric motor, e.g. 380V, the cos φ, e.g. 0.93 and the electrical efficiency of the electric motor of e.g. 0.95, have been entered by hand or during the Measured by measurement, analog inputs to Detection of the motor current, to detect the pressure on the suction side of the compressor, as well as an output with an analog signal, the the wished Represents pressure on the balance piston. From voltage, cos φ, efficiency and motor current is in the algorithm of the controller initially the Power determined on the drive shaft of the compressor and from it calculated in conjunction with the speed of the torque. The complete control algorithm considered additionally the pressure on the suction side of the compressor when calculating the Output signal.

Of the Output is control technology in an advantageous arrangement according to the invention connected to a pressure regulating valve, e.g. a proportional pressure control valve, at which the flow rate by changing the output signal the control device is modulated. Depending on the flow rate changes the pressure on the balance piston. The control device includes the control algorithm for calculating the required pressure the balance piston and the representation of this value in the range a standard signal, e.g. from 4 to 20 mA, or directly as control current for a Proportional pressure control valve.

In another embodiment of the invention in the supply line between the pressure control valve and the connection arranged to pressurize the balance piston a pressure measuring point. The output of the controller and the output of the Pressure measuring point are led to a three-point controller and compared. Depending on the result of the comparison, the proportional pressure control valve further open, if the pressure at the pressure measuring point is below the calculated value of Control device is located or closed further when the pressure on the pressure measuring point over the calculated value of the control device.

In another embodiment of the invention in the supply line between the pressure control valve and the connection arranged to pressurize the balance piston a pressure measuring point. The output of the controller and the output of the Pressure measuring points are routed to a three-point controller and compared. Depending on the result of the comparison, the pressure control valve, e.g. a proportional pressure control valve, further open when the pressure at the pressure measuring point is below the calculated value of Control device is located or closed further when the pressure on the pressure measuring point over the calculated value of the control device.

In another arrangement according to the invention is a variable speed oil pump arranged in the supply line for pressurizing the balance piston. Depending on the result of the comparison result of the three-point controller, becomes the speed of the oil pump elevated, if the pressure at the pressure measuring point is below the calculated value the control device is lowered or lowered further when the pressure at the pressure measuring point over the calculated value of the control device.

In the associated Show drawing

1 an inventive arrangement with a controllable by an input signal pressure control valve

2 another arrangement according to the invention with a controllable by a three-position controller pressure control valve.

The screw compressor according to the arrangement according to the invention ( 1 ) will be at the drive shaft end 5 that with the main rotor 2 rotatably connected, driven by a clutch, not shown. The tooth spaces of the main rotor 2 and the side rotor 3 form working chambers, on the suction side inlet window 6 adjoin. By rotor rotation at the drive shaft end 5 changes the gap volume of a considered tooth gap pair. On the shaft journal suction side are the radial bearings 1 and on the pressure side, the radial bearings 9 and thrust bearings 10 arranged. To compensate for the axial thrust on the main rotor 2 by gas power due to the compression of working fluid is a rotating disc, the balance piston 11 , non-contact hydraulically sealing at its outer diameter, arranged. It is acted upon on one side with pressure oil, which is either fed directly from the oil separator, which is arranged on the pressure side, or is brought by means of an oil pump to a higher pressure. The other side of the balance piston has almost suction pressure, so that the force of the balance piston 11 thus the gas power on the main rotor 2 axially counteracts. This will cause the thrust bearings 10 relieved. According to the illustrated embodiment of the invention, the control device 12 arranged as part of a controlled system. The control algorithm calculates the pressure on the balance piston 11 depending on the pressure on the suction side of the compressor and in dependence on the torque at the drive shaft end 5 (essentially motor current in conjunction with input motor voltage and input speed). Pressure and motor current are at the interfaces 13 . 14 passed to the controller. The control device 12 supplies the output signal 16 for the proportional pressure control valve 17 , According to the control characteristic of the proportional pressure control valve 17 there is a proportional relationship between input signal and pressure at the output of the proportional pressure control valve 17 , It increases the pressure on the balance piston 11 when the control device 12 this is calculated from the algorithm and provides a corresponding output signal and reduces the pressure on the balance piston 11 when the control device 12 calculated a smaller pressure for the balance piston.

In the arrangement according to the invention ( 2 ) is in the supply line between the proportional pressure control valve 17 and the connection for pressurizing the balance piston, a pressure measuring point 18 arranged. The output signal of the control device 12 and the output signal 19 the pressure measuring point 18 be on a three point controller, which is advantageous in the control device 12 is arranged, conducted and compared. Depending on the result of the comparison, the proportional pressure control valve 17 continue to open when the pressure at the pressure measuring point 18 below the calculated value of the control device 12 lies or continues closed when the pressure at the pressure measuring point 18 above the calculated value of the control device 12 lies.

1

radial bearings

2

main rotor

3

Besides rotor

4

5

Drive shaft end

6

intake window

7

8th

9

radial bearings

10

thrust

11

balance piston

12

control device

13

interface

14

interface

15

16

output

17

Proportional pressure control valve

18

pressure measurement

19

output

Claims (9)

An assembly of an oil-immersed screw compressor having two rotors, a main rotor having substantially convex tooth flanks and a side rotor having substantially concave flank portions, the main rotor having a drive shaft end and an oil pressure compensated balance piston supplied with oil via a pressure line and both rotors of housing parts be enclosed, and with a arranged on or in the compressor control device whose inputs are connected at least with measuring means for the pressure on the suction side and with measuring means for determining the drive power, characterized in that means are arranged for changing the pressure in the pressure line to the balance piston and a control-technical linkage of these means to the control device and the control device an algorithm between operating parameters, the input variables in the control device, and the pressure in the pressure line to Ausgl having eichskolben. Arrangement on an oil-flooded screw compressor according to claim 1 with a control device, characterized that a pressure control valve in the oil supply line to the balance piston is arranged and a control technology link between the control device and the pressure control valve and the control device has an algorithm that is a relation between drive torque on the drive shaft of the compressor, the pressure on the suction side of the Compressor and the pressure on the balance piston contains. Screw compressor according to claim 1 and 2, characterized characterized in that the relation of the control algorithm so designed is that the pressure on the Öldruckbeaufschlagten balance piston increases when the drive torque increases or if the pressure on the suction side of the compressor increases or if in the combination of increasing Drive torque and increasing pressure on the suction side changes enter. Screw compressor according to claim 1 and 2, characterized characterized in that the relation of the control algorithm so designed is that the pressure on the oil pressure compensated balance piston decreases, when the drive torque decreases or when the pressure on the suction side of the compressor decreases or if in the combination of decreasing Drive torque and decreasing pressure on the suction side changes enter. oil Flooded Screw compressor according to claim 1, characterized in that an output of the control device control technology at least with is connected to the pressure control valve. Screw compressor according to claim 5, characterized in that that the output of the regulator pressurizes the oil pressure Balancing piston modulated. Screw compressor according to claim 1, 2 and 5, characterized characterized in that in the supply line between the proportional pressure control valve and the connection to Öldruckbeaufschlagung of the balance piston, a pressure measuring point is arranged, whose Output signal is connected to a three-position controller. Screw compressor according to claim 7, characterized that is the output of the controller setpoint and the Output signal of the pressure measuring point actual value is and inputs both inputs the three-position controller and the three-position controller are on the output side control technology is connected to the pressure control valve. Screw compressor according to claim 1, 6 and 8, characterized in that a speed-controlled oil pump is arranged in the supply line for pressurizing the balance piston whose speed to the comparison result of the three-point is knotted