KR20120001744U - Performance tester for shaft sleeve of vertical type pump - Google Patents

Abstract

The present invention relates to a vertical pump shaft sleeve performance tester, the performance tester for testing the durability of the shaft sleeve is installed in order to prevent the spindle damage of the vertical pump, a motor having a rotating shaft, and is coupled with the rotating shaft to rotate together And a driving unit including a driving shaft in which the shaft sleeve as the test target is installed at an outer circumference; The upper frame is provided with a hole through which the motor is rotated and the rotating shaft of the motor penetrates, a lower frame fixedly installed on a bottom surface, and a hole provided between the upper and lower frames and through which the driving shaft can pass. A main body consisting of a support frame; A stuffing box fixed to an upper portion of the support frame and rotatably installed therein with a drive shaft and a shaft sleeve, a packing wound around the shaft sleeve under test in the stuffing box, and a fastener at an upper portion of the stuffing box. A test part comprising a packing presser for pressing the packing downwardly; A cooling unit comprising a storage tank, a cooling water supply line, and a circulation pump for supplying cooling water to the test unit; And an operation unit for controlling the operation of the driving unit and the cooling unit.
According to the present invention, since the same structure as the vertical pump used in practice, the performance of the shaft sleeve can be evaluated under the actual driving conditions, and the sleeve or packing can be easily installed and replaced during the performance test of the shaft sleeve. And, there is an advantage that can set the optimum operating state of the pump according to the pressure between the packing wound on the shaft sleeve or the flow rate of the cooling water supplied.

Description

PERFORMANCE TESTER FOR SHAFT SLEEVE OF VERTICAL TYPE PUMP}

The present invention relates to a vertical pump shaft sleeve performance tester, and more specifically, to the vertical pump shaft sleeve performance tester that can be made in the same structure as the vertical pump actually used to evaluate the performance of the shaft sleeve under actual driving conditions. It is about.

Generally, the pump includes a casing, an impeller, a spindle, a sleeve, a bearing, a coupling, a packing presser, a stuffing box, a bed, and the like, and a shaft and a key are coupled to the frictional contact to use the spindle permanently. Axial sleeves are often used. That is, the shaft sleeve is a component to be installed outside the main shaft of the pump and is a pump part for preventing damage to the main shaft.

On the other hand, the high-speed pump for quickly transporting large quantities of sewage and fresh water is lubricated and cooled by a plurality of bearings supporting the drive shaft connected to the motor shaft with lubricating oil because the drive shaft connected to the motor is very long. Gland packing is installed to seal lubricants and sewage. In other words, where the pump shaft penetrates the casing, the shaft is rotated with a small gap between the shaft and the casing. A packing or a mechanical seal is used to prevent leakage between the gaps. If the pump pressure is low and fresh water, grand packing is generally used.

However, as the main shaft of the pump rotates due to the operation of the motor, friction occurs between the gland packing and the shaft sleeve wound on the shaft sleeve to seal the liquid in the stuffing box, which causes the pump to be worn regularly for a certain period of time. Replace the shaft sleeve to prevent damage to the spindle. However, if the degree of wear of the shaft sleeve is different depending on the material of the shaft sleeve or the operating conditions of the friction part, the use of the shaft sleeve without considering this causes a problem of missing a proper replacement time of the shaft sleeve.

Through various tests to change the material of pump shaft sleeve and operating condition of friction part, the performance of the shaft sleeve is minimized from friction of contact part caused by long-term operation of the pump and the shaft sleeve with excellent function is selected to verify its performance. Later, it is necessary to develop a performance tester that can improve the operating efficiency of the pump by applying it to the field and to perform the performance test under various conditions of the shaft sleeve to set the optimum operating state during the actual pump operation.

The present invention has been made to solve the problems described above, and consists of the same structure as the vertical pump actually used to provide a vertical pump shaft sleeve performance tester that can evaluate the performance of the shaft sleeve under the actual driving conditions. It aims to do it.

In addition, another object of the present invention is to provide a vertical pump shaft sleeve performance tester which can be easily installed and replaced during the performance of the shaft sleeve.

It is another object of the present invention to provide a vertical pump shaft sleeve performance tester which can evaluate the effect on the shaft sleeve performance according to the pressure applied to the packing and the flow rate of the cooling water.

In order to achieve the above object, the vertical pump shaft sleeve performance tester according to the present invention, in the performance tester for testing the durability of the shaft sleeve is installed to prevent the spindle damage of the vertical pump, a motor having a rotating shaft, and A driving unit formed of a driving shaft which is coupled to a rotating shaft and rotates together with the shaft sleeve being the test object installed at an outer circumference; The upper frame is provided with a hole through which the motor is rotated and the rotating shaft of the motor penetrates, a lower frame fixedly installed on a bottom surface, and a hole provided between the upper and lower frames and through which the driving shaft can pass. A main body consisting of a support frame; A stuffing box fixed to an upper portion of the support frame and rotatably installed therein with a drive shaft and a shaft sleeve, a packing wound around the shaft sleeve under test in the stuffing box, and a fastener at an upper portion of the stuffing box. A test part comprising a packing presser for pressing the packing downwardly; A cooling unit comprising a storage tank, a cooling water supply line, and a circulation pump for supplying cooling water to the test unit; And an operation unit for controlling the operation of the driving unit and the cooling unit.

At this time, it is preferable that the rotation shaft of the motor and the driving shaft of the driving unit are fastened by a jaw coupling.

In addition, the packing presser is composed of a combination of two pieces consisting of a flange portion having a hole through which the fastener penetrates and a semicircular boss portion projecting downward through the flange portion, wherein the fastener is attached to the flange portion. It is preferable that the pair of coupling protrusions having a hole therethrough is further provided to couple the two pieces by fastening the fastener to the overlapping coupling protrusion.

In particular, the pair of engaging projections are different from the position formed up and down, it is preferable that the coupling projections of the two pieces pieces are formed so as to overlap each other up and down alternately.

In addition, it is preferable that a pressure measuring unit capable of measuring the pressure applied to the packing by the packing presser is further provided.

In addition, it is preferable that the flow rate control valve is further provided on the cooling water supply line to adjust the flow rate of the cooling water supplied to the test unit.

In addition, the stuffing box is provided with a flow in and out port to the cooling water supply line is fastened so that the cooling water supplied from the storage tank to cool the test unit through the inlet and outlet ports, and is coupled to the outlet port The cooling water supply line is preferably connected to the storage tank so that the cooling water is circulated.

In addition, it is preferable that the driving unit, the main body unit, and the test unit are each provided with at least two or more.

According to an embodiment of the present invention as described above, first, the test portion consisting of the stuffing box and the packing and the packing presses rotatably installed inside the shaft sleeve, made of the same structure as the vertical pump actually used to approximate the actual There is an advantage that the performance evaluation of the shaft sleeve under the driving conditions can be made.

Second, the rotation shaft of the motor and the drive shaft of the drive unit is fastened by the jaw coupling, there is an advantage that the installation and replacement of the sleeve is simplified during the performance test of the shaft sleeve.

Third, the packing presser is composed of two pieces with coupling protrusions overlapping up and down alternately, thereby improving the accuracy of the shaft sleeve performance test by pressing the packing evenly with four fasteners rather than the conventional two fasteners. There is an advantage that the replacement of the packing can be made easily during the operation of the tester.

Fourth, by further provided with a pressure measuring unit for measuring the pressure between the wound packing, there is an advantage to evaluate the effect on the durability of the shaft sleeve according to the pressure change applied to the packing by the packing presser.

Fifth, by further comprising a flow rate control valve for adjusting the cooling water flow rate on the cooling water supply line of the cooling unit, there is an advantage that can evaluate the durability effect of the shaft sleeve according to the flow rate of the cooling water.

Sixth, by having at least two driving parts, a main body part and a test part, respectively, there is an advantage that the performance test of the shaft sleeve can be tested simultaneously under the same or different conditions.

1 is a cross-sectional view of a vertical pump shaft sleeve performance tester according to an embodiment of the present invention,
Figure 2 is a state of use of the vertical pump shaft sleeve performance tester according to an embodiment of the present invention,
3 is an enlarged cross-sectional view of the portion “A” of FIG. 2;
Figure 4 is a state of use of the rotary shaft and the drive shaft of the jaw coupling coupled motor according to an embodiment of the present invention,
5a is a plan view and a front view of a piece constituting a packing presser according to an embodiment of the present invention,
5B is a plan view and a cross-sectional view of a packing press consisting of two pieces according to an embodiment of the present invention, and
6 is a state diagram used in the vertical pump shaft sleeve performance tester composed of two driving parts, a main body part and a test part according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to be described in detail so that one of ordinary skill in the art can easily carry out the present invention. This does not mean that the technical spirit and scope of the present invention is limited.

1 is a cross-sectional view of a vertical pump shaft sleeve performance tester 100 according to an embodiment of the present invention, Figure 2 is a state diagram of the vertical pump shaft sleeve performance tester 100 according to an embodiment of the present invention, 3 is an enlarged cross-sectional view of the portion "A" in FIG.

Vertical pump shaft sleeve performance tester 100 according to an embodiment of the present invention, the drive unit 10, the main body 20, the test unit 30, the cooling unit 40 and the operation unit 50.

The drive unit 10 is composed of a motor 11 and a drive shaft 13 that is rotated in conjunction with the rotation shaft 12 of the motor, the shaft sleeve 1 to be tested is the outer periphery of the drive shaft 13 It is fastened by a key. Therefore, the drive unit 10 serves to transmit the rotational force to the shaft sleeve (1).

On the other hand, the vertical pump shaft sleeve performance tester 100 according to an embodiment of the present invention is coupled to the rotary shaft 12 of the motor and the drive shaft 13 of the drive unit 10 by a jaw coupling (jaw coupling) (14) It is preferable. Jaw type couplings have the advantages of being compact, simple in structure, excellent in shock absorption, power transmission, and easy to maintain. The configuration of the jaw coupling 14 is as shown in FIG. 4 and takes the form of a known general jaw coupling. Therefore, when the performance test of the shaft sleeve for the installation and replacement of the sleeve can be easily separated from the rotating shaft 12 of the motor and the drive shaft 13 of the drive unit 10 has the advantage that the operation becomes easier.

The main body 20 is composed of upper and lower frames 21 and 23 and a support frame 22. The upper part of the upper frame 21 is provided with a hole through which the motor 11 of the driving unit 10 is seated and through which the rotating shaft 12 of the motor can pass. The lower frame 23 is fixed to the bottom surface serves to support the performance tester. In addition, the support frame 22 for stably supporting the test unit 30 to be described later is provided between the upper and lower frames (21, 23). The support frame 22 is provided with a hole through which the drive shaft 13 can pass. In addition, as shown in FIG. 1, an end of the drive shaft 13 may further include a reinforcement frame in which a cover plate and a bearing are installed.

The test unit 30 includes a stuffing box 31, a packing 32, and a packing presser 33 and 33 ′.

As shown in FIG. 3, the stuffing box 31 is fixedly installed on the support frame 22 and has a hole through which the drive shaft 13 and the shaft sleeve 1 pass. A packing 32 is wound around the shaft sleeve 1 therein, and a packing presser 33 and 33 'is provided on the top of the stuffing box 31 to press the packing 32 downward by a fastener. In addition, a bushing 34 for supporting the drive shaft 13 may be added.

6 is a state diagram used in the vertical pump shaft sleeve performance tester 100 composed of two driving units 10, a main body 20 and a test unit 30 according to an embodiment of the present invention.

Vertical pump shaft sleeve performance tester 100 according to an embodiment of the present invention may be composed of two or more of the drive unit 10, the main body 20 and the test unit 30, respectively. Therefore, there is an advantage that the performance test of the shaft sleeve can be tested simultaneously under the same or different conditions.

The cooling unit 40 serves to supply the cooling water to the test unit 30 described above, and consists of a cooling water storage tank 41, a cooling water supply line 42, and a circulation pump 43, and a strainer 45. May be further provided.

Referring to Figure 3, the stuffing box 31 described above is provided with a flow in and out port to which the cooling water supply line 42 is fastened, the cooling water supplied from the storage tank 41 inlet port (311) and outlet port ( Cool the test unit 30 through 312). In addition, as shown in Figure 2, the cooling water supply line 42 is fastened to the outlet port 312 is connected to the storage tank 41, it is preferable to make the circulation of the cooling water.

The operation unit 50 serves to operate and control the circulation pump 43 of the motor 11 or the cooling unit 40 of the driving unit 10 described above.

Therefore, the vertical pump shaft sleeve performance tester 100 of the present invention is configured in the same structure as the vertical pump actually used, there is an advantage that can evaluate the performance of the shaft sleeve under the actual driving conditions.

5A is a plan view and a front view of a piece piece 33 constituting a packing presser 33, 33 'according to an embodiment of the present invention, Figure 5b is a packing presser consisting of two piece pieces according to an embodiment of the present invention 33 and 33 'are a plan view and a sectional view.

Packing presser 33,33 'of the vertical pump shaft sleeve performance tester according to an embodiment of the present invention, the coupling of the two pieces provided with a flange portion 331, the boss portion 332 and the engaging projection 333 It consists of.

The flange portion 331 has a flat plate shape and is provided with a hole through which the fastener passes. The boss portion 332 penetrates from the lower center of the flange portion 331 to protrude downward and is formed in a semicircular shape.

The coupling protrusion 333 is formed to protrude from the side of the flange portion 331 is provided with a hole through which the fastener. Therefore, the coupling protrusions 333 and 333 'provided on the two pieces overlap each other, and by combining the two pieces by using a fastener, the boss 32 can press the packing 32 from the top. At this time, the coupling protrusion 333, as shown in the flange portion 331, by forming a different position up and down, so that the coupling protrusion 333 of the two pieces pieces alternately overlap each other up and down to improve the sealing conditions. It is preferable. Therefore, the accuracy of the shaft sleeve performance test can be improved by pressing the packing 32 uniformly with the four fasteners with improved sealing conditions than the conventional two fasteners. There is an advantage that the replacement of the packing 32 can be made easily.

In the vertical pump shaft sleeve performance tester 100 according to an embodiment of the present invention, the pressure measuring part 35 capable of measuring the pressure applied to the packing 32 by the packing presses 33 and 33 'is further included. It may be provided.

The pressure measuring unit 35 measures the pressure between the packing 32 and the packing 32 to be wound, and may be made of a known pressure gauge and an instrument panel. Therefore, it is possible to evaluate the effect on the durability of the shaft sleeve according to the pressure applied to the packing 32 by the packing presses 33 and 33 '.

In addition, the vertical pump shaft sleeve performance tester 100 according to an embodiment of the present invention, the flow rate control valve 44 on the cooling water supply line 42 for supplying the cooling water to the test unit 30 may be further provided. have. Therefore, there is an advantage that can also evaluate the durability effect of the shaft sleeve according to the flow rate of the cooling water.

As described above, the vertical pump shaft sleeve performance tester 100 of the present invention is made of the same structure as the vertical pump actually used, the performance of the shaft sleeve can be evaluated under the actual driving conditions, and the performance of the shaft sleeve Installation and replacement of the shaft sleeve (1) or the packing 32 can be done at the time of the test, and the optimum operating state of the pump according to the pressure between the packing 32 wound on the shaft sleeve or the flow rate of the cooling water supplied There is an advantage that can be set.

100: shaft sleeve performance tester 1: shaft sleeve
10: drive unit 11: motor
12: rotating shaft 13: drive shaft
14 jaw coupling 20 body part
21: upper frame 22: support frame
23: lower frame 30: test unit
31: stuffing box 311: inflow port
312 outlet port 32 packing
33, 33 ': packing press 331: flange part
332: boss 333,333 ': engaging projection
34: bushing bearing 35: pressure measuring unit
40: cooling part 41: storage tank
42: cooling water supply line 43: circulation pump
44: flow control valve 45: strainer
50: control panel

Claims (8)

In the performance tester for testing the durability of the shaft sleeve is installed to prevent the spindle damage of the vertical pump,
A driving unit including a motor having a rotating shaft, and a driving shaft fastened together with the rotating shaft to rotate together with the shaft sleeve which is the test target;
The upper frame is provided with a hole through which the motor is rotated and the rotating shaft of the motor penetrates, a lower frame fixedly installed on a bottom surface, and a hole provided between the upper and lower frames and through which the driving shaft can pass. A main body consisting of a support frame;
A stuffing box fixed to an upper portion of the support frame and rotatably installed therein with a drive shaft and a shaft sleeve, a packing wound around the shaft sleeve under test in the stuffing box, and a fastener at an upper portion of the stuffing box. A test part comprising a packing presser for pressing the packing downwardly;
A cooling unit comprising a storage tank, a cooling water supply line, and a circulation pump for supplying cooling water to the test unit; And
Vertical pump shaft sleeve performance tester including; operation unit for controlling the operation of the drive unit and the cooling unit.
The method of claim 1,
The rotation shaft of the motor and the drive shaft of the drive unit, the vertical pump shaft sleeve performance tester, characterized in that fastened by a jaw coupling (jaw coupling).
The method of claim 1,
The packing presser is composed of a combination of two pieces, consisting of a flange portion having a hole through which the fastener passes, and a semicircular boss portion projecting downward through the flange portion,
The flange portion is further provided with a pair of coupling protrusions provided with holes through which the fasteners pass, and the coupling pieces are coupled to each other by coupling the fasteners to the overlapping coupling protrusions. Shaft sleeve performance tester.
The method of claim 3,
The pair of coupling protrusions are formed differently up and down position, the vertical pump shaft sleeve performance tester, characterized in that the coupling projections of the two pieces are formed so as to overlap each other up and down.
The method of claim 1,
Vertical pump shaft sleeve performance tester further comprises a pressure measuring unit for measuring the pressure applied to the packing by the packing presser.
The method of claim 1,
On the cooling water supply line, the vertical pump shaft sleeve performance tester is further provided with a flow control valve to adjust the flow rate of the cooling water supplied to the test unit.
The method of claim 1,
The stuffing box is provided with a flow in / out port to which the cooling water supply line is fastened so that the coolant supplied from the storage tank cools the test unit through the inlet and outlet ports.
The cooling water supply line is coupled to the outlet port is connected to the storage tank, the vertical pump shaft sleeve performance tester, characterized in that the circulation of the cooling water is made.
The method of claim 1,
Vertical drive shaft sleeve performance tester, characterized in that the drive unit, the main body and the test unit is provided with at least two, respectively.

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