KR20060058426A - Axial thrust measureement device for turbo pump - Google Patents

Abstract

The present invention relates to an axial thrust force measuring device of a turbo type pump, in particular, in the design and manufacturing stage of the turbo type pump, ie centrifugal pump and axial type pump, the axial thrust force generated in the impeller rotary shaft of the pump is measured in advance to adjust the impeller rotary shaft in the pump casing. The present invention relates to an axial thrust measuring device of a centrifugal pump that can prevent the failure of a pump by preventing the damage of the bearing caused by the axial thrust generated during the operation of the pump by appropriately selecting and manufacturing a bearing supporting the axial thrust.

A feature of the present invention for achieving the above object is in the axial thrust force measuring device for measuring the axial thrust force of the turbo-type pump installed between the drive motor and the turbo type pump generating axial thrust on the impeller rotation shaft, A support shaft positioned through the casing, one end of which is connected to the impeller rotation shaft and the axial thrust transmission coupling, and the axial thrust is transmitted, and the other end of which is connected to the driving shaft of the driving motor by the flexible coupling; A plurality of ball bearings for supporting axial thrust by supporting both ends of a support shaft subjected to axial thrust in the casing; It is disposed on one side of each ball bearing sensor for measuring the axial thrust supported by the ball bearing; in the axial thrust measurement device of the turbo-type pump comprising a.

Turbo pump, centrifugal pump, axial pump, axial thrust,

Description

Axial thrust measureement device for turbo pump

1 is a schematic side view showing a conventional turbo type pump.

2 is a schematic side view of the present invention.

Figure 3 is an enlarged cross-sectional view of the present invention.

4 is an operational state diagram of the present invention.

* Description of the main parts of the drawings *

10: shaft thrust measuring device 11: casing 12: support shaft

13: ball bearing 14: sensor

20: output means

30: turbo type pump 31: pump casing 32: impeller rotating shaft

33a: ball bearing 33b: roller bearing 34: impeller

35: suction port 36: discharge port

40: drive motor 41: drive shaft

50: Coupling 50a: Coupling for transmitting axial thrust

60: flexible coupling

The present invention relates to an axial thrust force measuring device of a turbo type pump, in particular, in the design and manufacturing stage of the turbo type pump, ie centrifugal pump and axial type pump, the axial thrust force generated in the impeller rotary shaft of the pump is measured in advance to adjust the impeller rotary shaft in the pump casing. The present invention relates to an axial thrust measuring device of a centrifugal pump that can prevent the failure of a pump by preventing the damage of the bearing caused by the axial thrust generated during the operation of the pump by appropriately selecting and manufacturing a bearing supporting the axial thrust.

In general, the turbo type pump is configured such that the impeller rotary shaft 32, in which the impeller 34 is installed in the pump casing 31 having the inlet 35 and the discharge port 36, is axially supported by the ball bearing 33a as shown in FIG. 1. do.

In addition, when the driving shaft 41 of the driving motor 40 is connected to one end of the impeller rotating shaft 32 by the coupling 50 and the driving motor 40 rotates, the impeller rotating shaft 32 rotates, thereby causing the impeller to rotate. As the 34 is rotated, the fluid is sucked from the suction port 35 and discharged to the discharge port 36 side.

As the impeller 34 rotates in such a manner that the fluid is sucked from the suction port 35 and discharged to the discharge port 36, the suction port on the impeller rotation shaft 32 is formed by the pressure difference between the fluid flowing on the front and rear surfaces of the impeller 34. External force acting in the axial direction toward the (35) side is generated.

That is, the axial thrust is generated, and the known pump is a ball bearing that supports the axial thrust acting in the axial direction during the design and manufacture of the pump in consideration of the generation of the axial pressure on the impeller rotation shaft 32 by the axial thrust. The said impeller rotating shaft 32 is axially supported by 33a, and is comprised.

In addition, the coupling 50 is configured such that the axial thrust generated from the pump 30 is not transmitted to the drive shaft 41 of the drive motor 40.

However, if the axial thrust is higher than expected after fabrication of the pump, the already installed ball bearing 33a receives axial thrust above the reference value, resulting in damage to the bearing, which causes a problem of failure of the pump.

Accordingly, the present invention has been made to solve the above problems, and by designing and manufacturing the pump, it is possible to rationally select a bearing supporting the impeller rotation shaft by measuring the axial thrust occurring in the impeller rotation shaft of the pump to support the shaft thrust. The present invention provides a axial thrust force measuring device of a turbo type pump which prevents the failure of a pump by preventing the damage of the bearing by the axial thrust generated during the operation of the pump.

A feature of the present invention for achieving the above object is an axial thrust force measuring device for measuring the axial thrust force of the turbo type pump is installed between the drive motor and the turbo type pump generating the axial thrust on the impeller rotation shaft, the axial thrust force measuring device is A support shaft positioned through the casing, one end of which is connected to the impeller rotation shaft and the axial thrust transmission coupling, and the axial thrust is transmitted, and the other end of which is connected to the driving shaft of the driving motor by the flexible coupling; A plurality of ball bearings for supporting axial thrust by supporting both ends of a support shaft subjected to axial thrust in the casing; It is disposed on one side of each ball bearing sensor for measuring the axial thrust supported by the ball bearing; in the axial thrust measurement device of the turbo-type pump comprising a.

In addition, another feature of the present invention is installed in the pump casing of the turbo-type pump axial thrust force measuring device of the turbo-type pump comprising a roller bearing for supporting the axis of the impeller rotation shaft to transmit the axial thrust to the support shaft of the axial thrust force accumulator have.

In addition, another feature of the present invention is an axial thrust force measuring device of a turbo-type pump further comprises; output means for outputting data sensed by the axial thrust force measuring device.

Hereinafter, a configuration of the present invention will be described with reference to FIGS. 2 to 4.

The configuration of the axial thrust force measuring device of the turbo-type pump of the present invention is installed between the drive motor 40 and the turbo-type pump 30 that generates axial thrust on the impeller rotating shaft 32 to measure the axial thrust force of the turbo-type pump 30 In thrust measuring device,

The axial thrust force measuring device 10 is positioned so as to penetrate through the shaft hole 15 formed on both sides of the casing 11, one end is connected to the impeller rotary shaft 32 and the axial thrust transmission coupling (50a) to the axial thrust It is transmitted, the other end of the support shaft 12 which is connected to the drive shaft 41 of the drive motor 40 by the flexible coupling 60, and the support shaft 12 of the axial thrust in the casing 11 A plurality of ball bearings 13 supporting the axial thrust by supporting both ends, and a sensor 14 disposed on one side of each ball bearing 13 to measure the axial thrust transmitted to the ball bearing 13. It is configured to include.

That is, the respective ball bearings 13a and 13b are disposed at both shaft holes 15 in the casing 11, and for detecting the axial thrust in the ball bearing 13 supporting the axial thrust applied to the support shaft 12. Sensors 14a and 14b are disposed on the left side of the ball bearing 13a located on the left side of the casing 11 and on the right side of the ball bearing 13b located on the right side of the casing 11 with reference to FIG. 3. Since the axial thrust force is transmitted to the other end of the support shaft 12 by the axial thrust of the turbo type pump 30, the sensor 14b on the right side detects the axial thrust force and the axial thrust force at one end of the support shaft 12. When this is transmitted, the sensor 14a on the left side is configured to detect the axial thrust.

In particular, the turbo type pump 30 is a turbo type pump 30 as a design and manufacturing step, and a roller bearing 33b which does not support the axial thrust instead of the ball bearing 33a that supports the axial thrust in the configuration mentioned in the prior art. The impeller rotation shaft 32 and the support shaft 12 are connected to the shaft thrust transmission coupling 50a so that the axial thrust generated in the impeller rotation shaft 32 is temporarily transmitted to the support shaft 12 as it is. The configuration is the same except for the configuration.

That is, in order to measure the axial thrust force of the turbo type pump 30, the axial thrust generated in the impeller rotary shaft 32 during test operation is prevented from supporting the axial thrust by the roller bearing 33b for supporting the impeller rotary shaft 32 axially. It is configured to transmit the axial thrust force to the support shaft 12 of the axial thrust force measurement device 10.

The drive shaft 41 of the drive motor 40 is connected to the other end of the support shaft 12 of the shaft thrust measuring device 10 and the flexible coupling 60 to transmit the shaft thrust to the support shaft 12. It is configured not to be transmitted to the drive shaft 41 of the drive motor 40.

In addition, the output means 20 outputs the axial thrust detected by the sensor 14 of the axial thrust force measuring device 10 so that the design and the manufacturer can know, based on the axial thrust sensed by the design and the manufacturer, suitable axial thrust Allows selection of support ball bearings.

Hereinafter, the axial thrust measurement process of the axial thrust force measuring apparatus of the present invention turbo type pump is as follows.

First, the axial thrust force measuring device of the turbo-type pump of the present invention, in the design and manufacture of the turbo-type pump 30, the axial thrust support ball bearing for supporting the axial thrust generated in the impeller rotating shaft 32 by detecting the axial thrust in advance ( As a device for selecting 33a),

In the state where the roller bearing 33b is temporarily installed in the pump casing 31 of the turbo type pump 30 in the design and manufacturing stage (the position where the ball bearing 33a supporting the axial thrust is installed), that is, the axial thrust is supported. Since the axial thrust force is transmitted to the support shaft 12 of the axial thrust measurement device 10 as it is, the sensors located at both ends of the support shaft 12 detect the axial thrust force.

In addition, the other end of the support shaft 12 through which the axial thrust is transmitted is transmitted to the drive shaft 41 of the drive motor 40 so that the other end of the drive shaft 41 and the support shaft 12 are flexible couplings 60. If the turbo pump 30 is operated in a connected state,

Axial thrust is generated by the fluid pressure of the front and rear surfaces of the impeller 34 in the process of discharging the fluid to the discharge port 36 through the suction port 35, so that the impeller rotation shaft 32 generates the axial pressure toward the suction port 35. Done.

The axial thrust is transmitted to one end of the support shaft 12 interlocked with the impeller rotation shaft 32 as it is, and the axial thrust is transferred to the ball bearing 13a on the left side of the casing 11 so that the sensor 14a on the left side of the shaft Since the axial thrust is displayed on the output means 20 by detecting the thrust and transmitting the data to the output means 20, the design and the manufacturer confirm this.

In addition, when the impeller rotating shaft 32 rotates in the opposite direction, the axial thrust is generated on the impeller rotating shaft 32 to the opposite side of the suction port 35, and the axial thrust is transmitted to the other end of the support shaft 12 so that the casing 11 may be The right sensor 14b on the right ball bearing 13b side detects the axial thrust and transmits data to the output means 20.

In this way, the axial thrust support ball bearing can be reasonably selected and installed in the pump to be manufactured in consideration of the detected axial thrust.

As described above, according to the present invention, the axial thrust generated from the pump is measured in advance, and the ball bearing supporting the axial thrust is reasonably selected and installed. It is effective to prevent the damage of the pump by preventing the bearing damage.

Claims (3)

In the axial thrust force measuring device which is installed between the drive motor 40 and the turbo type pump 30 in which axial thrust is generated on the impeller rotating shaft 32, and measures the axial thrust force of the turbo type pump 30, The axial thrust force measuring device 10 is located through the casing 11, one end is connected to the impeller rotation shaft 32 and the axial thrust transmission coupling 50a, the axial thrust is transmitted, the other end is a flexible coupling A support shaft 12 connected to the drive shaft 41 of the drive motor 40 by 60;  A plurality of ball bearings 13 for supporting axial thrust by supporting both ends of the support shaft 12 receiving axial thrust in the casing 11; And a sensor (14) disposed on one side of each ball bearing (13) to measure the axial thrust supported by the ball bearing (13). The method of claim 1, It is installed in the pump casing 31 of the turbo-type pump 30 includes a roller bearing 33b for supporting the impeller rotating shaft 32 to axially transmit the axial thrust to the support shaft 12 of the measuring device 10. Axial thrust measuring device of a turbo type pump, characterized in that configured. The method of claim 1, Output means (20) for outputting data sensed by the axial thrust measuring device (10); Axial thrust measuring device of the turbo-type pump, characterized in that further comprises a.

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