KR101570291B1 - Mechanical seal for submerged pump - Google Patents

Abstract

The present invention relates to a mechanical seal for an underwater pump, which is mounted on a drive shaft of a motor constituting a submersible pump and supports the rotation of the drive shaft while blocking fluid entry into the motor due to rotation of the impeller on the drive shaft, A color shaft fixedly installed; An upper sealing body that is vertically movable from an upper portion of the color shaft while being guided by an inner diameter on the driving shaft, and rotates together with the driving shaft and the color shaft; A lower sealing body installed vertically movably from a lower portion of the color shaft, the lower sealing body rotating together with the driving shaft and the color shaft; A compression spring for applying elasticity to the upper sealing body and the lower sealing body from the color shaft; A first stationary sealing body which is guided on the drive shaft so as to correspond to an upper end of the upper sealing body and whose outer circumference is fixed to the body housing of the underwater pump; A second stationary sealing body which is guided on the drive shaft so as to correspond to a lower end portion of the lower sealing body and whose outer periphery is fixed to the body housing of the underwater pump; And a metal packing which is installed to be opposed to the upper sealing body and the first fixed sealing body, the lower sealing body and the second fixed sealing body so as to block the inflow of the fluid into the driving shaft.

Description

Technical Field [0001] The present invention relates to a mechanical seal for a submerged pump,

The present invention relates to a mechanical seal, and more particularly, to a mechanical seal which is provided on a drive shaft of a motor constituting an underwater pump to prevent fluid entry into the motor and to assist rotation of the drive shaft, It is possible to prevent the deterioration of the elasticity of spring due to the case where foreign substances are trapped in the spring which maintains the vertical elasticity, and the maintenance and the life of the mechanical seal are prevented The present invention relates to a mechanical seal for an underwater pump.

Generally, submersible pump is an electric pump that operates under water, and it is divided into various kinds according to purpose and use of the pump.

The submersible pump is a device that is installed in water and sucks the fluid and then forcibly flows. The submersible pump includes a motor that generates power, a drive shaft that rotates by a motor, and an impeller that rotates by a drive shaft.

1 and 2, the underwater pump 1 sucks the fluid while rotating the impeller 4 on the drive shaft 3 by the power of the drive motor 2, The fluid is forced to flow while being discharged through the discharge port on the side of the discharge port 1-1.

Therefore, when the impeller is rotated, pressure may be applied to the motor, so that the fluid may flow into the motor.

A lubricant chamber is disposed between the motor and the impeller 4 and a mechanical seal 100 for preventing fluid from flowing into the lubricant chamber along the drive shaft 3 to the motor 2 is essentially provided.

Both sides of a mechanical seal applied to the motor constituting the submersible pump 1 are fixed in a housing in which a motor is installed. The middle portion of the mechanical seal is fixed to a drive shaft of the motor and contacts the drive shaft. It serves to prevent leakage of fluid to be fed. Generally, it is widely used instead of metal packing in various machines such as pumps and compressors because of low friction loss and long service life.

The mechanical seal is divided into an unbalanced type and a balanced type. The unbalanced type is used for a submerged pump in which the pressure is not very high. The balanced type is widely used for a high pressure submerged pump for rotating the fluid at high speed, The mechanical seal is automatically operated according to the pressure change to adjust the airtightness, thereby protecting the motor from the fluid.

On the other hand, if the prior art relating to the mechanical seal room is examined, Korean Patent No. 10-0699005 (entitled "Mechanical seal structure of coolant pump", hereinafter referred to as "prior art 1") and registered patent No. 10-0968384 : An underwater motor, hereinafter referred to as " Prior Art 2 ").

Prior Art 1 is a coolant pump that circulates cutting oil in a mechanical cutting machine, unlike a submersible pump. The structure of the mechanical seal is largely composed of a seal for preventing water leakage, a seal stopper, a spring, and a spring stopper.

In the prior art 2, a first mechanical seal provided on the upper portion of the drive shaft of the submersible pump, and a second mechanical seal provided below the drive shaft and hermetically sealing the lower portion of the motor portion. Is provided so as to provide elasticity to the rotating drive shaft.

However, since the above-mentioned type is an unbalanced type, the spring is exposed at a position where it can be in direct contact with the fluid when viewed from the drive shaft of the motor. Therefore, when the fluid is fed by the high- The foreign matter contained in the spring is caught in the spring, and the inherent resilience of the spring is lost.

Therefore, when the motor rotates at a high speed, the fluid can flow into the motor through the upper and lower portions of the mechanical seal on the basis of the spring, so that the function of the mechanical seal can not be substantially expected.

As described above, since the fluid flowing into the motor induces a failure of the motor, the life of the pump for feeding the fluid is remarkably shortened.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned conventional problems, and it is an object of the present invention to improve a mechanical seal provided on a drive shaft of a motor constituting an underwater pump, In order to ensure stable rotation of the drive shaft and to prevent foreign matter from being trapped in the spring that maintains the vertical elasticity, it is possible to prevent the elasticity of the spring from being lowered, And it is an object of the present invention to provide a mechanical seal for an underwater pump which can maintain the performance of the seal and can be stored for a long time.

According to an aspect of the present invention, there is provided a mechanical seal for an underwater pump which is installed on a drive shaft of a motor constituting an underwater pump and supports the rotation of the drive shaft while blocking fluid entry into the motor due to rotation of the impeller on the drive shaft As a result,

The mechanical seal includes: a color shaft having an inner diameter fixedly mounted on a drive shaft; An upper sealing body installed vertically movably from an upper portion of the color shaft while guiding an inner diameter on the driving shaft, the upper sealing body rotating together with the driving shaft and the color shaft; A lower sealing body installed vertically movably from a lower portion of the color shaft, the lower sealing body rotating together with the driving shaft and the color shaft; A compression spring for applying elasticity to the upper sealing body and the lower sealing body from the color shaft; A first stationary sealing body which is guided on the drive shaft so as to correspond to an upper end of the upper sealing body and whose outer circumference is fixed to the body housing of the underwater pump; A second stationary sealing body which is guided on the drive shaft so as to correspond to a lower end portion of the lower sealing body and whose outer periphery is fixed to the body housing of the underwater pump; A first metal paddle provided opposite to the upper sealing body and the first fixed sealing body to block the inflow of fluid into the drive shaft; And a second metal packing disposed opposite to the lower sealing body and the second fixed sealing body to block the inflow of fluid into the drive shaft; The color shaft 110 has a cylindrical shape and is inserted into the driving shaft of the motor. The stepped portion is protruded from the outer periphery. The first pin guide groove and the first spring support grooves A second spring support groove for guiding and supporting a compression spring for applying elasticity to the lower sealing body is arranged on the lower circumference of the step portion and a plurality of guide pins for guiding the lower sealing body up and down are arranged between the second spring support grooves And an O-ring for airtightness is inserted into the inner circumference from the outer periphery of the drive shaft, so that the O-ring is combined with the drive shaft.

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A protruding protrusion for preventing foreign matter from entering the compression spring is further extended from the outer circumference of the end of the step of the color shaft according to the present invention.

The upper sealing body according to the present invention has a first protruding step for supporting the end of the compression spring on the circumference of the inner diameter and for guiding and supporting the first metal packing, And a guide pin guided in an upper and lower straight line from the upper end is fixed and an inner circumference is provided with an outer circumference of a color shaft and an O-ring for maintaining airtightness and combined with a color shaft.

The second sealing member has a plurality of second pin guide grooves arranged on the upper circumference thereof and a second protrusion protruding from the inner circumference of the second sealing member. And an O-ring for maintaining airtightness is inserted.

The O-ring positioned under the color shaft and hermetically sealed from the drive shaft according to the present invention has a second protruding jaw and a space of the lower sealing body so as to be inserted between the second protruding jaws of the drive shaft and the lower sealing body at high- And the upper metal packing of the second metal packing supported on the lower portion of the second protruding jaw is in contact with the lower metal packing supported on the second stationary sealing body so that airtightness is maintained. do.

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The mechanical seal for a submersible pump according to the present invention can be lifted while preventing the intrusion of fluids through the O-ring installed in each component in the case where the rotation of the impeller including the drive shaft of the motor is low rotation, A pressure is applied to the lower sealing body and the second fixed sealing body by lowering the lower sealing body to generate the water pressure introduced into the space formed with the second protruding protrusion of the lower sealing body along the inner diameter of the second fixed sealing body of the mechanical condensing chamber Since the fixed metal packing gap can be closely adhered to the fixed metal packing gap, the flow of the fluid can be quickly blocked from the outside along the drive shaft. This makes it possible to exhibit the performance of the mechanical seal in a submersible pump, .

In addition, among the elements constituting the mechanical seal of the present invention, the compression spring for giving elasticity to the upper sealing body and the lower sealing body from the color shaft is not exposed to the outside as much as possible, It is possible to maintain the operating state of the upper sealing body and the lower sealing body for a long time from the color shaft, thereby preventing the performance degradation of the mechanical seal.

1 is a perspective view showing a general submersible pump as an example,
2 is a longitudinal sectional view of an underwater pump showing an example in which a mechanical seal is applied,
FIG. 3 is a perspective view of the mechanical seal of the present invention,
4 is a longitudinal sectional view showing a state in which a mechanical seal according to the present invention is applied to a drive shaft
Fig. 5 is an enlarged view showing an excerpt of a portion "a " in Fig. 4,
Fig. 6 is an enlarged view showing the portion "b" in Fig. 5,
7 is a cross-sectional view illustrating a color shaft of a mechanical seal according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

2 to 6 with reference to Fig. 1 attached herewith, the present invention can be applied to a case in which the rotation of the impeller 4 on the drive shaft, which is installed on the drive shaft 3 of the motor 2 constituting the underwater pump 1, The mechanical seal (100) according to claim 1, wherein the mechanical seal (100) is a color shaft (100) having an inner diameter fixed on the drive shaft (3) An upper sealing body 120 which is vertically movable from the upper portion of the color shaft 110 while being guided by an inner diameter on the driving shaft 3 and rotates together with the driving shaft 3 and the color shaft 110, A lower sealing body 130 installed vertically movably from a lower portion of the color shaft 110 and rotating together with the driving shaft 3 and the color shaft 110; A compression spring 140 for applying elasticity to the upper sealing body 120 and the lower sealing body 130, A first stationary sealing body 150 guided on the drive shaft 3 in correspondence with the upper end of the lower sealing body 1 and guided on the outer periphery of the main body housing 1-1 of the submerged pump 1, A second fixed sealing body 160 guided on the drive shaft 3 so as to correspond to a lower end of the underwater pump 1 and fixed to the main body housing 1-1 of the underwater pump 1, A first metal packing 170 installed opposite to the first fixed sealing body 120 and blocking the inflow of fluid into the driving shaft 3 and a second metal packing 170 interposed between the lower sealing body 130 and the second fixed sealing body 150, And a second metal packing 170 'which is installed on the body 160 so as to be opposed to each other and blocks the inflow of the fluid into the drive shaft 3.

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The color shaft 110 is cylindrical in shape to be inserted into a drive shaft 3 of the motor 2, and a step portion 111 having a thickness and a width is integrally protruded from the outer periphery.

A plurality of first spring support grooves 113 for guiding and supporting the first pin guide groove 112 and the compression spring 140 are arranged on the upper circumference of the step portion 111, A second spring support groove 114 for guiding and supporting a compression spring 140 for applying elasticity to the lower sealing body 130 is arranged on the lower circumference of the lower sealing body 130, A plurality of guide pins P for guiding upward and downward the guide pins P are fixedly installed.

An inner diameter of the color shaft 110 is fitted with an O-ring L1 for airtightness from the outer circumference of the drive shaft 3, and is installed in combination with the drive shaft 3.

7, a protruding protrusion 115 for preventing foreign matter from entering the compression spring 140 is formed on the outer circumference of the step portion 111 of the color shaft 110. As shown in FIG. 7, It is also possible to apply it in the form of

The upper sealing body 120 supports the end of the compression spring 140 on the circumference of the inner diameter and has a first protruding protrusion 121 for guiding and supporting the first metal packing 170 A guide pin P guided from the upper end to the upper end of the color shaft 110 is fixedly mounted on the circumference of the bottom surface of the first protruding protrusion 121, And an O-ring (L2) for maintenance is installed and installed in combination with the color shaft (110).

The lower sealing body 130 provided at a position opposite to the upper sealing body 120 is formed with a plurality of second pin guide grooves 131 on the upper circumference thereof, A second protruding protrusion 132 for guiding the driving shaft 170 to the driving shaft 3 is formed and an O-ring L3 which is in close contact with the lower end of the color shaft 110 and keeps airtightness from the driving shaft 3 is inserted into the inner diameter. Respectively.

That is, the color shaft 110, the upper sealing body 120, and the lower sealing body 130 are rotated together with the driving shaft 3 of the motor 2, The sealing body 120 and the lower sealing body 130 are installed so as to be vertically moved with respect to the color shaft 110 by the air introduced by the transfer pressure of the fluid.

The O-ring L3 which is positioned below the color shaft 110 and is airtightly sealed from the drive shaft 3 has a second protruding protrusion 132 of the lower sealing body 130 and a space S, The lower sealing member 130 is lowered by the water pressure introduced between the drive shaft 3 and the second protruding protrusion 132 of the lower sealing member 130 at the time of high speed rotation of the second protruding protrusion 132 The upper metal packing 171 'of the second metal packing 170' supported by the lower portion and the lower metal packing 172 'supported by the second stationary sealing body 160 are in contact with each other to maintain airtightness.

The first metal packing 170 provided between the upper sealing body 120 and the first stationary sealing body 150 is rotatable and the first and second stationary sealing bodies 160, The second metal packing 170 ', which blocks the inflow of the fluid into the drive shaft 3, is installed in a fixed manner.

The inner diameter of the ends of the first protruding ridge 121 and the second protruding ridge 132 has a clearance from the outer diameter of the drive shaft 3 and the clearance has a small diameter difference of substantially 0.5 mm or less do.

An inclined portion 161 for guiding the hydraulic pressure is formed in the inner diameter of the second stationary sealing body 160 in the course of pressure feeding through the rotation of the impeller 4.

In the drawings, reference character A denotes a set screw for coupling the color shaft to the drive shaft, and reference symbol L4 denotes an O-ring provided in the first stationary sealing body and the second stationary sealing body to maintain airtightness from the main body housing.

Hereinafter, the operation of the submersible pump according to the present invention will be described.

The submersible pump 1 driven underwater rotates the drive shaft 3 and the impeller 4 through the motor 2 to pump the water in the water simultaneously with the inflow of air from the outside.

The color shaft 110, the upper sealing body 120, and the lower sealing body 130 are rotated together with the driving shaft 3 in the rotation of the drive shaft 3 as described above. At this time, when the drive shaft 3 rotates at low speed, the fluid is pressure-fed in a state where the operation of the mechanical seal 100 is largely unchanged.

The above state can be obtained by adjusting the elasticity of the compression spring 140 mounted on the color shaft 110 and the elastic force of the upper fixing body 120 and the second fixing sealing body 120 And the first and second metal packing 170 and 170 'provided on the lower sealing body 130 and the second fixed sealing body 160 closely contact each other to block the inflow of the fluid.

On the other hand, in proportion to the high-speed rotation of the drive shaft (3), fluid injected into the mechanical seal (100) as the following action can be prevented from flowing into the interior of the motor (2).

The upper and lower sides, that is, the first stationary sealing body 150 and the second stationary sealing body 160 are kept fixed to the main body housing 1-1 constituting the submerged pump 1, Air flows inward through a gap between the second projecting protrusions 132 of the lower sealing body 130 provided on the drive shaft 3 along the inclined portion 161 of the stationary sealing body.

The air introduced along the inclined portion 161 of the second stationary sealing body 160 is supplied to the first and second stationary sealing bodies 160 and 160 ' The upper metal packing 171 'and the lower metal packing 172' are spaced apart so that the air is again passed through the upper metal packing 171 'and the lower metal packing 172' to the outside.

However, when the color shaft 110 and the lower sealing member 130 are separated from each other through the gap between the second protrusions 132 of the lower sealing member 130, Momentary inflow to the space S where the airtight L3 is located.

The above state is filled with the instantaneous high pressure in the space S by the hermetic condition of the O-ring L3 which is closely attached to the lower end of the color shaft 110 in the inner diameter of the lower sealing body 130, 2 lowering the lower sealing body 130 as shown in FIG. 6 in a relative operation of pushing the protruding protrusion 132 downward.

A plurality of compression springs 140 provided circumferentially under the step portion 111 of the color shaft in the above state maintains a state in which the lower sealing body 130 is further pressed by the resilient force, .

The upper metal packing 171 'of the second metal packing 170' installed on the side of the lower sealing body 130 and the side of the second fixed sealing body 160 according to the lowering of the lower sealing body 130, The lower metal packing 172 'is in close contact to block the inflow of fluid from the outside.

That is, by providing a stable airtight effect with high speed rotation of the drive shaft 3, the performance of the mechanical seal 100 can be exhibited properly.

The mechanical seal 100 is operated with high speed rotation of the drive shaft 3 as described above so that the compression spring 140 located on the upper and lower sides of the color shaft 110 is not exposed to the outside of the mechanical seal And the foreign matter contained in the fluid flows during operation to prevent the operation of the compression spring, so that the replacement life of the mechanical seal can be prolonged for a long time.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

1: Submerged pump 1-1: Main housing
2: motor 3: drive shaft
4: Impeller 100: Mechanical seal
110: Color shaft 111: Short jaw
112: first pin guide groove 113: first spring support groove
114: second spring supporting groove 115: protective jaw
120: upper sealing body 121: first protruding jaw
130: lower sealing body 131: second pin guide groove
132: second protruding jaw 140: compression spring
150: first fixed sealing body 160: second fixed sealing body
161: inclined portion 170: first metal packing
170 ': second metal packing 171': upper metal packing
172 ': Lower metal packing L1 to L4: O-ring
S: space P: guide pin

Claims (7)

A mechanical seal for an underwater pump which is provided on a drive shaft 3 of a motor 2 constituting an underwater pump 1 and supports the rotation of the drive shaft while blocking fluid entry into the motor due to rotation of the impeller 4 on the drive shaft; (100)
The mechanical seal (100)
A color shaft 110 having an inner diameter fixedly mounted on the drive shaft 3;
An upper sealing body 120 installed on the driving shaft 3 so as to be vertically movable from an upper portion of the color shaft 110 while being guided by an inner diameter and rotated together with the driving shaft 3 and the color shaft 110;
A lower sealing body 130 installed vertically movably from a lower portion of the color shaft 110 and rotating together with the driving shaft 3 and the color shaft 110;
A compression spring 140 for applying elasticity to the upper sealing body 120 and the lower sealing body 130 from the color shaft 110;
A first stationary sealing body 150 guided on the drive shaft 3 in correspondence with the upper end of the upper sealing body 120 and fixed to the body housing 1-1 of the underwater pump 1, ;
A second stationary sealing body 160 guided on the drive shaft 3 in correspondence with a lower end of the lower sealing body 130 and having an outer circumference fixedly installed to the main body housing 1-1 of the underwater pump 1; ;
A first metal packing 170 installed on the upper sealing body 120 and the first stationary sealing body 150 so as to counteract the inflow of fluid into the drive shaft 3;
And a second metal packing (170 ') installed opposite to the lower sealing body (130) and the second fixed sealing body (160) to block the inflow of fluid into the drive shaft (3);
The color shaft 110 is cylindrical in shape to be inserted into the drive shaft 3 of the motor 2. The color shaft 110 has a step portion 111 protruding from the outer periphery thereof and has a first pin guide groove 112, A plurality of first spring support grooves 113 for guiding the lower sealing member 140 are arranged on the lower sealing member 130 and a compression spring 140 for applying elasticity to the lower sealing member 130 is provided on the lower circumference of the step portion 111 A plurality of guide pins P for vertically guiding the lower sealing body 130 are fixedly installed between the second spring support grooves 114 and a plurality of guide pins P 3) is inserted into and fitted to the drive shaft from the outer periphery of the outer seal ring (3).
delete 2. The image forming apparatus according to claim 1, wherein a protection jaw (115) is further formed on the outer periphery of the step (111) of the color shaft (110) Mechanical seals for pumps.
The method according to claim 1,
The upper sealing body 120 has a first protrusion 121 for supporting the end of the compression spring 140 on the circumference of the inner diameter and for guiding and supporting the first metal packing 170, A guide pin P guided from the upper end to the upper end from the upper end of the color shaft 110 is fixedly mounted on the circumference of the bottom surface of the jaw 121 and an O-ring L2 ) Is installed and combined with the color shaft (110).
The method according to claim 1,
A plurality of second pin guide grooves 131 are formed on the upper circumference of the lower sealing member 130 and a second protrusion 132 is formed on the inner circumference of the lower sealing member 130 to guide and support the second metal packing 170 ' And an O-ring (L3) which is in close contact with the lower end of the color shaft (110) and keeps airtightness from the drive shaft (3) is inserted in the inner diameter.
6. The method of claim 5,
The O-ring L3 which is positioned below the color shaft 110 and is hermetically sealed from the drive shaft 3 has the second protruding protrusion 132 of the lower sealing body 130 and the space S, The lower sealing body 130 is lowered by the water pressure introduced between the driving shaft 3 and the second protruding protrusions 132 of the lower sealing body 130 at the time of high-speed rotation of the second sealing protrusions 132, Wherein the upper metal packing 171 'of the supported second metal packing 170' and the lower metal packing 172 'supported by the second fixed sealing body 160 are in contact with each other to be hermetically sealed. Mechanical seals for pumps. delete

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