KR200465254Y1 - Impeller manufacturing equipment - Google Patents

Abstract

The present invention relates to an impeller processing device, mainly in the lathe machining of the impeller wear ring installed in the pump, by tapering the shaft of the processing tool, collet also by the same taper to tighten the nut, impeller inner diameter The collet is expanded to be fixed to the shaft of the processing tool to improve the processing precision of the rotating body and to improve the assembly and disassembly workability relates to an impeller processing apparatus.

Description

Impeller manufacturing equipment

The present invention relates to an impeller processing device, mainly in the lathe machining of the impeller wear ring installed in the pump, by tapering the shaft of the processing tool, collet also by the same taper to tighten the nut, impeller inner diameter The collet is expanded to be fixed to the shaft of the processing tool to improve the processing precision of the rotating body and to improve the assembly and disassembly workability relates to an impeller processing apparatus.

In general, an impeller is installed in the LNG high pressure pump.

At this time, as a rotating body of the pump, in order to lathe the impeller wear ring, the tool is concentrically bitten by the tool, and the outer diameter of the tool shaft is reduced. There is a method of inserting the impeller and concentric operation, and a method of applying heat to the impeller and inserting the impeller into the tool shaft.

However, the first method has a problem that it is difficult to match the concentricity and the precision is low.

On the other hand, the second method is not difficult to achieve concentricity, but after applying heat, it must wait until the temperature decreases. There is a problem that can change.

Therefore, in order to prevent the problems described above, it is necessary to shorten the time for installing or removing the impeller on the shaft and to develop a method for improving the processing accuracy.

The present invention is devised to solve the problems described above, the object of the present invention is mainly in the lathe machining of the impeller wear ring (Impeller Wear Ring) installed in the pump, tapering the shaft of the processing tool, the collet also By tapering and tightening the nut, the collet is expanded to the inner diameter of the impeller to be fixed to the shaft of the processing tool to provide an impeller processing apparatus that improves the processing accuracy of the rotating body and improves the assembly and disassembly workability.

In the impeller processing apparatus of the present invention, in the impeller processing apparatus (1) for concentrically working the tool to the lathe chuck to lathe the impeller (100) having an axial hole, one end is fixed to the lathe chuck, and The tapered portion 220 is formed to extend concentrically with the fixing portion, and the outer diameter gradually decreases away from the fixing portion, and the bolt portion 230 extending concentrically with the taper portion 220 and having a screw thread formed on the outer circumferential surface thereof. Having a shaft 200; The surface in contact with the tapered portion 220 is processed at the same slope as the tapered portion 220, is separated into at least three pieces in the longitudinal direction of the shaft 200 surrounds the outer peripheral surface of the tapered portion 220 A collet 300 detachably coupled; A nut 400 screwed to the bolt part 230 to fix the impeller 100 inserted into and coupled with the inner circumferential surface of the shaft hole of the impeller 100 so as to contact the outer circumferential surface of the collet 300; And is formed to include a plurality of protrusions.

In addition, the impeller processing apparatus 1 is formed with at least one bolt head seating portion 310 to be fixed to the collet 300 by the tapered portion 220 and the bolt 320, the taper A female screw hole 240 is formed at a position corresponding to the bolt head seating part 310 of the part 220.

In addition, the collet 300 is characterized in that the screw insertion portion 330 is formed so that the screw 340 is inserted in the longitudinal direction of the collet 300 when disassembling from the shaft 200 to facilitate. .

In addition, the shaft 200 is characterized in that the screw engaging jaw 250 is embedded in the central axial direction so that the end and the side of the screw 340 inserted into the screw insertion portion 330 is formed.

In addition, the nut 400 is a lock nut for preventing the impeller 100 from being separated.

Accordingly, the impeller processing apparatus of the present invention mainly tapered the shaft of the processing tool during lathe machining of the impeller wear ring installed on the pump, and the collet is also processed with the same taper to tighten the nut, thereby impeller inner diameter. The collet is extended to be fixed to the shaft of the processing tool, thereby improving the processing precision of the impeller and improving the assembly and disassembly workability.

In addition, the impeller processing apparatus of the present invention by using a collet having a diameter and a shaft having a tapered portion, it is possible to combine the impeller of the diameter of the shaft hole has the advantage that the work of the impeller of various diameters can be worked.

In addition, the impeller processing apparatus of the present invention can be easily assembled and disassembled the impeller, it is possible to reduce the maintenance manpower, it is possible to reduce the fatigue of the operator has the advantage that can improve the work efficiency.

1 is a cross-sectional view showing a shaft portion of the impeller processing apparatus according to the present invention.
Figure 2 is a view showing the measurement of the shaft portion concentricity of the impeller processing apparatus according to the present invention with a dial gauge.
Figure 3 is an exploded perspective view showing a collet of the impeller processing apparatus according to the present invention.
Figure 4 is an exploded cross-sectional view of the impeller processing apparatus according to the present invention.
5 is a cross-sectional view of the impeller processing apparatus according to the present invention.
Figure 6 is a view showing the decomposition of the collet in the impeller processing apparatus according to the present invention.

Hereinafter, with reference to the accompanying drawings the impeller processing apparatus according to the present invention having the configuration as described above in detail.

1 is a cross-sectional view showing a shaft portion of the impeller processing apparatus according to the present invention, Figure 2 is a view showing the measurement of the shaft portion concentricity of the impeller processing apparatus according to the present invention, Figure 3 of the impeller processing apparatus according to the present invention 4 is an exploded cross-sectional view of an impeller processing apparatus according to the present invention, FIG. 5 is a cross-sectional view of an impeller processing apparatus according to the present invention, and FIG. 6 is an exploded collet in the impeller processing apparatus according to the present invention. It is a figure which shows.

The impeller 100 processing apparatus 1 of the present invention is to concentrically work a machining tool on a lathe chuck in order to lathe the impeller 100 having an axial hole. The shaft 200, the collet 300, and the nut ( 400).

As shown in FIGS. 4 to 6, the shaft 200 has one end fixed to the lathe chuck, and the shaft 200 extends concentrically with the fixing part, and the outer diameter gradually decreases away from the fixing part. It has a taper portion 220, and the bolt portion 230 extending concentrically with the taper portion 220, the threaded portion formed on the outer peripheral surface.

The collet 300 is a surface in contact with the tapered portion 220 is processed at the same slope as the tapered portion 220, is separated into at least three or more pieces in the longitudinal direction of the shaft 200, the tapered portion ( Wrapping around the outer circumferential surface of 220 is detachably coupled.

The nut 400 is screwed to the bolt part 230 to fix the impeller 100 inserted into and coupled with the inner circumferential surface of the shaft hole of the impeller 100 so as to contact the outer circumferential surface of the collet 300.

The impeller processing apparatus 1 further includes a washer 410 between the nut 400 and the impeller 100 to prevent loosening of the nut 400 and at the end of the bolt portion 230. By preventing excessive coupling with the nut 400, it can be later loosened smoothly.

4 to 6, the nut 400 is preferably a lock nut for preventing the impeller 100 from being separated.

The impeller processing apparatus 1 is formed with at least one bolt head seating portion 310 to be fixed to the collet 300 by the tapered portion 220 and the bolt 320, the tapered portion 220 Female threaded hole 240 may be formed at a position corresponding to the bolt head seating portion 310 of the).

Accordingly, the collet 300 may be separated into at least three pieces so that the collet 300 surrounding the outer circumferential surface of the tapered portion 220 may be fixed to the tapered portion 220. In this case, the bolt head At least one seating portion is preferably formed for each piece of the collet 300.

As described above, the impeller processing apparatus 1 is a collet 300 separated into at least three or more pieces is wrapped around the outer peripheral surface of the tapered portion 220 is fixed to the shaft 200, the impeller 100 After inserting into the collet 300 and tightened with the lock nut, the collet 300 extends from the surface of the shaft 200. By such a principle, the impeller processing apparatus 1 has the advantage that the impeller 100 having a different diameter of the shaft hole can be coupled to the lathe work of the impeller 100 having various diameters.

On the other hand, the impeller processing apparatus 1 of the present invention is designed not only to improve the processing precision of the impeller 100, but also to quickly disassemble and assemble from the shaft 200 part.

To this end, the collet 300 of the impeller processing apparatus 1 is a screw inserting portion to insert the screw 340 in the longitudinal direction of the collet 300 when disassembling from the shaft 200 to facilitate disassembly ( 330 is formed, and the screw 200 may be formed with a screw engaging jaw 250 that is embedded in the center axial direction so that the end portion and the side of the screw 340 inserted into the screw insertion portion 330 is caught. have.

Accordingly, when the impeller processing apparatus 1 inserts and tightens the screw 340 to the screw insertion portion 330 of the collet 300, the end of the screw 340 contacts the screw engaging jaw 250. When further tightened, the screw 340 pushes the collet 300 outward to separate the collet 300 from the shaft 200.

Referring to Figures 1 to 6 how to use the impeller processing apparatus 1,

First, as shown in Figure 1, the shaft 200 is bitten by the lathe chuck. Then, as shown in Figure 2, two dial gauges are installed to set the concentricity of the shaft 200 within 1/100 mm.

Next, the three collets 300 are fixed to the shaft 200 with bolts 320, and the impeller 100 is inserted into the collets 300 through shaft holes. The lock nut is fastened to the bolt part 230 to be tightened with a wrench so that the impeller 100 inserted into the collet 300 can be fixed without being separated. At this time, the three collets 300 are expanded while sliding on the surface of the shaft 200 is adjusted to the diameter of the shaft hole of the impeller 100.

After lathe processing the impeller 100, the lock nut is unscrewed.

Next, as shown in FIG. 6, when the three screws 340 are inserted into the screw inserting portions 330 formed in the respective collets 300 and tightened, the screws 340 are screwed into the screw jaw 250. ), The screw 340 pushes the collet 300 outward, and the collet 300 is separated and the impeller 100 is pulled out.

Accordingly, the impeller processing apparatus of the present invention mainly tapered the shaft of the processing tool during lathe machining of the impeller wear ring installed on the pump, and the collet is also processed with the same taper to tighten the nut, thereby impeller inner diameter. The collet is extended to be fixed to the shaft of the processing tool, thereby improving the processing precision of the impeller and improving the assembly and disassembly workability.

In addition, the impeller processing apparatus of the present invention by using a collet having a diameter and a shaft having a tapered portion, it is possible to combine the impeller of the diameter of the shaft hole has the advantage that the work of the impeller of various diameters can be worked.

In addition, the impeller processing apparatus of the present invention can be easily assembled and disassembled the impeller, it is possible to reduce the maintenance manpower, it is possible to reduce the fatigue of the operator has the advantage that can improve the work efficiency.

The present invention is not limited to the above-described embodiment, and the scope of application of the present invention, as well as those of ordinary skill in the field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Of course, various modifications can be made.

1: Impeller Processing Equipment
100: impeller
200: shaft
210: fixed portion 220: tapered portion
230: bolt portion 240: female thread
250: screw jam
300: collet
310: bolt head seating portion 320: bolt
330: screw insertion portion 340: screw
400: nut

Claims (5)

In the impeller processing apparatus (1) for concentrically working the machining tool to the lathe chuck in order to lathe the impeller (100) having a shaft hole,
One end is fixed to the lathe chuck, the concentric with the fixed portion is formed and the taper portion 220 is reduced in outer diameter gradually away from the fixed portion, and extends concentric with the tapered portion 220 A shaft 200 having a bolt portion 230 having a thread formed on an outer circumferential surface thereof;
The surface in contact with the tapered portion 220 is processed at the same slope as the tapered portion 220, is separated into at least three pieces in the longitudinal direction of the shaft 200 surrounds the outer peripheral surface of the tapered portion 220 A collet 300 detachably coupled;
A nut 400 fastened to the bolt part 230 so that the impeller 100 is fixed without being separated from the collet 300 in a state in which the collet 300 is inserted into the shaft hole of the impeller 100; Including;
The collet 300 is easy to disassemble from the shaft 200,
When disassembling, the impeller processing apparatus characterized in that it further comprises a screw insertion portion 330 is inserted into the screw 340 in the longitudinal direction of the collet (300).
The method of claim 1,
The impeller processing device 1
At least one bolt head seating part 310 is formed to be fixed to the collet 300 by the taper part 220 and the bolt 320.
Impeller processing apparatus, characterized in that the female screw hole 240 is formed in a position corresponding to the bolt head seating portion 310 of the tapered portion (220).
delete The method of claim 1,
The shaft 200 is
Impeller processing apparatus, characterized in that the screw engaging jaw 250 is formed to be embedded in the center axial direction so that the end and the side of the screw 340 inserted into the screw insertion portion 330 is formed.
The method of claim 1,
The nut 400 is
Impeller processing apparatus, characterized in that the lock nut for preventing the impeller 100 is separated.

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