KR200486928Y1 - Wear-ring separating aparatus for pump - Google Patents

Abstract

In order to separate the impeller and the wearer applied to the LNG high-pressure pump, the present invention is designed to fix the wear ring using a clamping device so as to be caught at the stepped portion of the wear ring and to easily separate the wear ring from the impeller by the hydraulic pressure of the hydraulic cylinder The present invention also relates to a wear separating mechanism for a pump which is improved in structure to prevent impeller damage by installing a laser distance sensor for measuring a distance between the load cell and the impeller for measuring the load during the separation operation of the wear ring.
The present invention relates to a separator body having a plurality of supports at a lower portion thereof and having an engagement protrusion formed at an inner end of the support to interfere with a stepped portion of a wear ring, A hydraulic cylinder coupled to the inside of the separator body and lifting the rod as the external hydraulic pressure is transmitted; a hydraulic cylinder coupled to the center of the impeller coupled with the wear ring, So as to be connected to each other.

Description

[0001] WEAR-RING SEPARATING APARATUS FOR PUMP FOR PUMPS [0002]

The present invention relates to a wear ring detachment mechanism for a pump. In particular, for separating an impeller and a wear ring applied to an LNG high pressure pump, a wear ring is fixed using a clamping device so as to be caught at a step portion of the wear ring, A load cell for measuring the load during the separation operation of the wear ring and a laser distance sensor for measuring the separation distance between the impeller and the impeller are installed to prevent the impeller from being damaged. To a wear ring detachment mechanism.

Generally, the centrifugal pump is provided with a casing cover at one side of the casing to maintain the airtightness of the space portion in which the impeller is installed.

In addition, the casing is provided with a suction port and a discharge port, and the one side is sealed with a casing cover to maintain airtightness.

The impeller has an inlet end having a large diameter and an outlet end having a small diameter, and is closely fitted to the inside of the casing and the casing cover. This assembly is carried out with a very small gap in each member called wear ring. The wearer usually uses stainless steel or bronze for prevention of rust and durability.

When the power is applied to the motor, the impeller rotates and the inner fluid is sucked into the casing by the centrifugal force of the impeller blade. At this time, the pressure of the inlet end of the impeller and the impeller The pressure at the outlet end, which is the outlet end, shows a difference. That is, the pressure at the outlet end becomes a vacuum state, and the fluid in the groundwater is sucked through the inlet of the casing. The fluid in the casing is inevitably leaking through the fine gap between the wear ring and the impeller due to this pressure difference

In order to overcome this problem, as disclosed in Korean Patent Laid-Open Publication No. 10-1998-0917629 entitled " Wear Ring Structure of Centrifugal Pump "(Published Date: June 1998), in a waring structure of a centrifugal pump including a casing containing an impeller, And the casing and the casing cover.

However, in the case of the conventional pump, even if the airtight material for preventing the leakage phenomenon is installed, the leakage phenomenon occurs due to the passage of time, and even if the efficiency of the pump is lowered due to such leakage phenomenon, There is no problem.

Another prior art related to the conventional wear ring structure of a centrifugal pump is disclosed in Korean Patent Registration No. 10-1130708 entitled " Wearing Adjustable Submersible Motor Pump "(registered on March 20, 2012) The pump unit is configured to pump the water at the lower side while the impeller of the pump unit is operated by the operation of the electric motor unit, An underwater motor pump that adjusts a height of a variable wearer provided between an upper casing and a lower casing by a height adjusting device to adjust a clearance with an impeller blade; A height adjustment device for adjusting the height of the wear ring provided between the upper casing and the lower casing; Wherein the variable-type wear ring is inclined downwardly by an angle of &thetas; &thetas; &thetas; on the vertical line, and the adjusting flange of the variable wear ring is repeatedly formed with an adjusting bolt hole,

An annular recess is formed in the upper surface of the lower flange integrally formed at the upper end of the lower casing to form a regulating space, and a wear flange of a variable wear ring is coupled to the space. In the regulating space, A gap formed between the process bolt hole and the adjustment bolt portion formed in the wear ring;

The fixing bolt and the adjusting bolt are alternately screwed to each nut hole formed in the lower flange so that the upper end of the adjusting bolt supports the lower surface of the lower flange, Is screwed to a fixing nut hole formed in the lower flange.

However, as the wear ring provided on the outside of the conventional pump impeller is worn, the step and outer diameter of the wear ring are not constant, so that it is difficult to disassemble the impeller wear ring and the impeller may be damaged due to the load generated during the disassembly operation.

Korean Patent Laid-Open No. 10-1998-0917629 entitled "Wear Ring Structure of Centrifugal Pump" (Published on Jun. 1998) Korean Registered Patent No. 10-1130708 entitled "Wearing Adjustable Submersible Motor Pump" (Registered on March 20, 2012)

The object of the present invention is to solve the above problems, and the object of the present invention is to fix a wear ring using a clamping device so as to be caught at a step portion of a wear ring for separating an impeller and a wear ring applied to an LNG high- It is possible to separate the wearer from the impeller easily by the oil pressure of the cylinder and to install the load cell to measure the load during the separation of the wear ring to prevent damage of the impeller. .

According to an aspect of the present invention, there is provided a separator body having a plurality of supports at a lower portion thereof and having an engagement step formed at an inner end of the support to interfere with a stepped portion of a wear ring, A hydraulic cylinder coupled to the inside of the separator body for lifting and lowering the rod as the external hydraulic pressure is transmitted, and a hydraulic cylinder coupled to the center of the impeller to which the wear ring is coupled, And a plurality of laser beams for measuring a distance in four directions in which the impeller is separated when the wear ring is taken out, Sensor, and the laser distance sensor are coupled to the fixing bracket, Is disposed so as to be riding move the slider for adjusting a position of the laser sensor in accordance with the diameter of the impeller, is provided at an end of the fixing bracket is characterized in that it includes a fixing bolt for restricting movement of said slider.

A load cell disposed between the separator body and the hydraulic cylinder for measuring a load generated when separating the wear ring and a pressure indicator for indicating a load measured by the load cell coupled to the separator body .

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This design is applicable to impellers and wearings of different sizes because the clamping member can be used to adjust the coupling distance of each support by the diameter of the impeller and the wear ring. The load is transmitted to the impeller side by the load lowering operation of the hydraulic cylinder, The impeller can be easily separated from the wearing ring held in the holding jaws of the support, so that there is an advantage that the wearing ring can be easily separated.

In addition, the present invention has an advantage that the impeller can be prevented from being damaged due to erroneous installation and user's carelessness by using a pressure indicator and a distance indicator.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a structural view showing a wear ring separating mechanism for a pump according to the present invention; FIG.
2 is a plan view showing the present design clamp member.
3 is a plan view showing a mounting structure of the present invention laser distance sensor.
Fig. 4 and Fig. 5 are explanatory views showing the state before and after the separation of the inventive impeller. Fig.

1 to 5, a plurality of support rods 110 are provided at a lower portion of the wale ring separating mechanism according to the present invention, and a step portion of the waring ring 20 is provided at an inner end of the support rods 110, A separator body 100 in which a stopping protrusion 112 is formed and a plurality of support rods 110 are clamped to be engaged with the support rods 110 of the separator body 100 and operated when the lever 210 is operated A hydraulic cylinder 300 coupled to the interior of the separator body 100 and lifting the rod as the external hydraulic pressure is transmitted to the impeller 10; And a support block 400 coupled to the center of the rod and coupled to receive the end of the rod.

1, the separator body 100 has four supports 110 divided into four legs at a lower portion thereof. The separator body 100 has a lower inner end of each support 110, And a stopper 112 is formed to have a small inner diameter.

Each of the support rods 110 is disposed below the rim of the separator body 100 and has a structure capable of flexing with respect to the separator body 100 so as to vary the distance therebetween according to the size of the impeller 10.

The latching jaws 112 have a structure in which they are protruded toward the center inward at the lower inner ends of the support rods 110.

When the impeller 10 coupled with the wear ring 20 is disposed on the lower side of the separator body 100, each of the engagement protrusions 112 is engaged to support the stepped lower portion of the wear ring 20.

In the hydraulic cylinder 300, a cylinder body is fixed via a fixing nut 350 to the lower side of the center of the separator body 100, and the external hydraulic pressure is transmitted by the hydraulic pressure supplier 500 to thereby raise and lower the rod.

The rod is coupled to receive the upper end of the support block 400, which is coupled to be seated at the central portion of the impeller 10.

To this end, a receiving groove 410 is formed in the upper center of the support block 400 to receive the end of the rod.

The support block 400 may include a plurality of support blocks 400 of different sizes and may have a support block 400 of a suitable size according to the diameter of the impeller 10.

2, the clamp member 200 includes a clamping band 220 coupled to surround the outer periphery of each support 110, a clamping band 220 rotatably provided at one end of the clamping band 220, And a lever 210 that is coupled to the other side of the band 220 and connects both ends of the clamping band 220.

The clamping member 200 may be formed such that the clamping band 220 binds the support rods 110 in accordance with the locking engagement of the lever 210 so that the engagement rim 112 of the support rods 110 is interfered with the waring 20 Thereby providing a bonding force.

Therefore, the clamp member 200 can arbitrarily adjust the distance between the support members 110 according to the size of the impeller 10, which increases the convenience of the operation.

The load cell 610 is disposed between the separator body 100 and the hydraulic cylinder 300 to measure a load generated when the wear ring 20 is separated from the load cell 610, And a pressure indicator 620 for indicating a load measured from the load cell 610.

The load cell 610 measures the reaction force against the load transmitted to the impeller 10 during the rod lowering operation of the hydraulic cylinder 300 for separating the impeller 10 and the wear ring 20, And outputs a load measured to the side.

Accordingly, the operator can measure the load displayed on the pressure indicator 620 during the separation operation between the impeller 10 and the wear ring 20, thereby identifying the erroneous installation and malfunction of the rod and support block 400, 10 can be prevented from being damaged.

3, the present invention is characterized in that the impeller 10 is fixed to the inner side of the support rods 110 via a fixing bracket 720 and the impeller 10 is detached when the wear ring 20 is taken out A plurality of laser distance sensors 710 for measuring the distance in the four directions to which the laser distance sensor 710 is coupled and are disposed slidably inward and outward (radial direction) respectively to the fixing bracket 720 A slider 730 is provided.

The position of the laser distance sensor 710 can be adjusted according to the diameter of the impeller 10 as the slider 730 provided with the laser distance sensor 710 moves in the radial direction with the fixing bracket 720 installed .

A fixing bolt 740 for restricting the movement of the slider 730 is provided at an end of the fixing bracket 720.

The laser distance sensor 710 is installed on the inner side of each supporting stand 110 to measure the separation distance between the impeller 10 and the impeller 10 during the wet operation of the ware ring 20, And outputs the distance to the installed distance indicator 750.

4, a support block 400 is mounted on a central portion of an impeller 10 to which a wear ring 20 is coupled, and a support block 400 is mounted on an outer side of the support ring 110 So that the clamping band 220 engages and fastens the outer sides of the respective support rods 110 so that the respective clamping jaws 112 are brought into contact with each other, (112) is caught under the wearer (20).

Meanwhile, the rod of the hydraulic cylinder 300 coupled to the center of the separator body 100 is seated to be received in the receiving groove 410 of the support block 400.

5, when hydraulic pressure is applied to the hydraulic cylinder 300 to lower the rod, the lower force of the rod is transmitted to the impeller 10 side through the support block 400, The wear ring 20 fixed to the engagement protrusion 112 of the support base 110 is separated from the impeller 10 by the reaction force against the lower force of the rod.

At this time, the load cell 610 measures the reaction force generated when the rod is lowered and outputs the measured reaction force to the pressure indicator 620 side so that the assembly of the rod, the support block 400, and the impeller 10 is misassembled, The operator can confirm that the excessive pressure is transmitted to the impeller 10 when operated and the impeller 10 can be prevented from being damaged by turning off the operation of the hydraulic cylinder 300 when excessive pressure is transmitted.

In addition, by using the four laser distance sensors 710 installed on the respective support rods 110, it is possible to measure the distance by which the impeller 10 and the impeller 10 are separated from each other during the wet operation of the wear ring 20, have.

Therefore, the present invention can adjust the binding distance of the support rods 110 by using the clamp member 200 according to the diameters of the impeller 10 and the wear ring 20. Therefore, the impeller 10 and the wear ring 20, And a load is applied to the impeller 10 side by the rod lowering operation of the hydraulic cylinder 300 so that the impeller 10 can be removed from the wear ring 20 caught by the engagement protrusions 112 of the support rods 110. [ The separating operation of the wear ring 20 can be easily performed.

In addition, the present invention has an advantage that the impeller 10 can be prevented from being damaged due to erroneous installation and user's carelessness by using the pressure indicator 620 and the distance indicator 750.

10: Impeller 20: Wear ring
100: separator body 110: support
112: latching jaw 200: clamp member
210: lever 220: clamping band
300: Hydraulic cylinder 310: Rod
350: Fixing nut 400: Supporting block
410: receiving groove 610: load cell
620: Pressure indicator 710: Laser distance sensor
720: Fixing bracket 730: Slider
740: Fixing bolt 750: Distance indicator

Claims (3)

A separator body 100 having a plurality of support rods 110 at a lower portion thereof and having an engagement step 112 formed at an inner end of the support rods 110 so as to interfere with a stepped portion of the wear ring 20,
A clamp member 200 clamped to clamp the support 110 of the separator body 100 and for clamping the plurality of supports 110 when the lever 210 is operated,
A hydraulic cylinder 300 coupled to the inside of the separator body 100 and lifting the rod as the external hydraulic pressure is transmitted,
A support block 400 coupled to the center of the impeller 10 to which the wear ring 20 is coupled and coupled to receive an end of the rod,
A plurality of laser distance sensors (not shown) for measuring the distance in the four directions in which the impeller 10 is separated when the wear ring 20 is taken out, respectively, through the fixing bracket 720, 710)
The laser distance sensor 710 is coupled to the fixing bracket 720 and is slidably and inwardly slidable on the fixing bracket 720 to adjust the position of the laser distance sensor 710 according to the diameter of the impeller 10, (730)
And a fixing bolt (740) installed at an end of the fixing bracket (720) for restricting the movement of the slider (730).
A load cell (610) disposed between the separator body (100) and the hydraulic cylinder (300) for measuring a load generated when the wear ring (20) is separated;
Further comprising a pressure indicator (620) coupled to the separator body (100) for indicating a load measured from the load cell (610).
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