KR19980087586A - Stator of mono pump - Google Patents

Abstract

The present invention forms a space layer on the stator of the mono-pump, and the rubber material conveying portion to which the raw material is conveyed is formed to have a constant thickness and a uniform surface outside the space layer, so that the rotor rotates inside the stator to transfer the raw material. In order to minimize the frictional force between the rotor and the conveying part made of rubber material, the monolayer can prevent damage to the conveying part due to heat generation by absorbing heat caused by the frictional force of the rotor and the conveying part by the space layer formed on the stator. Relates to the stator of the pump.

To this end, the present invention, in the stator body is attached to the inside of the cylindrical stator body is provided with a spiral screw-shaped transfer portion is twisted in the shape of an oblong, and a mono-pump in which the rotor is introduced into the transfer portion to transfer the raw material at high pressure, The stator body is composed of an inner wall and an outer wall, the end portions of the inner wall and the outer wall are connected to each other to form a space layer between the inner wall and the outer wall, the inner wall is formed in a spiral screw shape of the whole twisted in an oblong shape, the outer wall Cooling water inlet is formed in one side of the cooling water inlet for introducing the cooling water, the other side of the outer wall is formed with a cooling water outlet for discharging the cooling water introduced into the space layer, the inner portion of the inner wall of the rubber material conveying thickness is uniform It is characterized by being formed by attachment.

Description

Stator of mono pump

The present invention relates to a stator of a mono pump, and more particularly, when the rotor rotates inside the stator to transfer raw materials, the frictional force between the rotor and the transfer part made of rubber material is minimized, It relates to a stator of a mono pump to prevent damage to the conveying part.

In general, the main function of the mono pump is a device capable of continuously discharging the highly viscous raw material by compression transfer, the scope of application in the food industry is to continuously transfer and discharge fish cake, sausage while maintaining a certain viscosity, In the environmental industry, the sewage treatment sludge and powder treatment plant sludge are continuously transported and discharged while maintaining a constant viscosity. In the papermaking industry, the scope of application is used for transporting and discharging pulp raw materials and coating fuels. It is widely used for transporting various raw materials such as pharmaceutical industry, building industry, and chemical industry.

As such, the mono pump for transferring a specific raw material has a structure as shown in FIG. 1. That is, the drive shaft 11 connected to the rotating shaft of the motor (not shown) is coupled to the bent rotor 19 by the joint 16, and the outer side of the drive shaft 11 is provided in the bearing housing 13. The ball bearing 12 is rotated smoothly, the raw material inlet 21 is formed, the universal joint 16 is disposed inside the body 15 into which the raw material is introduced, the body 15 and the bearing housing ( 13 is interposed between the raw material existing in the body 15 by the packing 14 so as not to flow into the bearing housing 13, the body 15 and the bearing housing 13 is formed integrally It is.

In addition, one side of the body 15 is provided with a stator 17 in which an elliptical screw is formed on the inside of the stator body 17a, and a rubber-shaped transfer part 18 is formed, and the screw travel direction formed in the transfer part 18 is provided. Rotor 19 is introduced to rotate, the raw material is introduced into the stator 17 through the discharge port 22 formed on one side of the body 15, the other side of the stator 17 The raw material discharge port 20 continuously discharged by a certain pressure by the former 19 is provided.

As described above, the conventional mono pump first drives the motor (not shown) in the state of introducing the raw material 1 through the raw material inlet 21 and introducing the raw material 1 into the space inside the body 15. This rotation rotates the joint 16 and the rotor 19 installed therein, and the raw material 1 introduced at a predetermined pressure into the space of the body 15 is the stator body 17a through the discharge port 22. Inflow to the conveying portion 18 of the rubber material formed attached to the inner wall of the), the introduced raw material 1 is the rotor (as shown in the state of transfer of the raw material according to the rotation angle of the rotor 19 shown in By the rotation of 19, the raw material is continuously transferred in the advancing direction of the screw formed in the conveying unit 18.

In this case, when the raw material 1 is transferred in the advancing direction of the screw formed in the transfer unit 18 according to the rotation of the rotor 19, the raw material 1 is transferred at a very high pressure, and the raw material 1 transferred at the predetermined pressure is discharged. At 20, the secondary pressure is generated by the discharge port 20 to discharge continuously with high viscosity.

Such a conventional mono pump 10 is not formed with a constant thickness of the conveying unit 18 installed inside the stator body 17a, the shrinkage is irregular due to the thickness variation, it is not only difficult to form the surface uniformly When the rotor 19 is rotated, high heat is generated due to frictional force on irregular surfaces, thereby easily shortening the overall life of the mono pump.

4 is an enlarged cross-sectional view of a stator which is a conventional mono pump, (a) is a cross-sectional view of a stator which is a mono pump, and (b) is a cross-sectional view taken along the line A-A of (a).

As shown here, the stator 17 has an oval-shaped transfer part 18 attached to the inside of the stator body 17a, and the rubber thickness t1 of the portion introduced in relation to the whole is formed of a screw-shaped rubber material. Due to the difference in the thickness of the rubber parts (t2) between the two and the protruding parts, the shrinkage ratio of the rubber is irregular during mold molding of the product due to the thickness variation, making it difficult to calculate precisely the rotor and to rotate the rotor inside the stator body 17a. ), The function of the pump is deteriorated as a whole.

Therefore, the problems with the conventional stator 17 configured as described above will be described in more detail as follows. That is, the main function of the mono pump is to stop the fluid at rest, the vacuum at the suction side and the high pressure at the discharge side during operation, and thus the efficiency is lowered, and the airtightness with the rotor 19 is not maintained. (19) is made larger than specified to reduce the productivity by fitting tightly, and as a result, the starting load of the mono pump is very high, which makes it difficult to initially start, causing damage and failure of the motor and the mono pump. There is a problem of significantly shortening.

In addition, a severe frictional force is generated between the rotor 19 and the transfer portion 18 of the rubber material formed on the stator body 17a, causing the transfer portion 18 to be worn, and the main function of the metering pump is quantitative and constant speed operation. There is a lot of problems, such as not being, the load of the power is taken a lot during operation to cause the failure and this increases the power consumption.

The present invention is to solve the above problems, the stator of the mono pump is manufactured in a two-layer structure of the outer wall and the inner wall having a space layer, the inner wall is manufactured in the shape of a long screw, When the rotor is rotated inside the stator to transfer raw materials by forming a uniform thickness by transferring the rubber material to the outside of the inner wall made of a screw shape to have a uniform thickness, the frictional force between the rotor and the rubber material is transferred. Meanwhile, the cooling water is introduced by the space layer formed in the stator to absorb heat caused by the frictional force between the rotor and the transfer unit, thereby preventing damage to the transfer unit due to heat generation, and maintaining the airtightness of the transfer unit and the rotor to maintain the airtightness of the raw material. It is an object of the present invention to provide a stator of a mono pump which allows for a smooth transfer. Will.

Another object of the present invention is to form a stator body of the stator in the shape of a spiral screw twisted entirely in the shape of a stator, and attaching the transfer portion of the rubber material to a uniform thickness inside the stator body formed in this way to form a surface having a constant thickness When the rotor rotates inside the stator to transfer the raw materials, the frictional force between the rotor and the rubber transfer part is minimized, while maintaining airtightness and increasing the surface area of the stator body. Absorption of heat by frictional force prevents damage to the transporter due to frictional force between the rotor and the transporter.

The present invention for realizing the above object is a stator provided with a spiral screw-shaped transfer portion is attached to the inside of the cylindrical stator body is twisted in the shape of an oblong, and the rotor is introduced into the transfer portion to transfer the raw material at high pressure In the mono pump, the stator body is composed of an inner wall and an outer wall, the ends of the inner wall and the outer wall are connected to each other to form a space layer between the inner wall and the outer wall, the inner wall is a spiral screw shape of the whole twisted in the shape of an oblong. Cooling water inlet is formed on one side of the outer wall for introducing the cooling water into the space layer, the other side of the outer wall is formed with a cooling water outlet for discharging the cooling water introduced into the space layer, the inner side of the inner wall of the rubber material The transfer part is characterized by being attached to a uniform thickness.

Another feature of the present invention is a stator having a cylindrical screw stator attached to the inside of the cylindrical stator body is provided with a spiral screw shape of the whole twisted, and a stator of the mono pump to transfer the raw material at a high pressure to the rotor is introduced into the transfer portion In the stator body of the stator is formed in a spiral screw shape penetrating the inside and the whole twisted in an oblong shape to increase the surface area, flanges are provided on both sides of the stator body of the spiral screw shape twisted entirely in the oblong The inside of the stator body having an oblong spiral screw shape having an increased surface area is provided with a rubber material with a uniform thickness.

1 is a cross-sectional view of a conventional mono pump.

2 is a schematic operation diagram of the mono pump.

Figure 3 is a transfer state of the raw material according to the rotation angle of the rotor which is a mono pump.

4 is an enlarged cross-sectional view of a stator that is a conventional mono pump,

(A) is a cross-sectional view of the stator which is a mono pump,

(B) is sectional drawing of the A-A line | wire of (a) figure.

5 is an enlarged cross-sectional view of a stator which is a mono pump according to the present invention;

(A) is a cross-sectional view of the stator which is a mono pump,

(B) is sectional drawing along the line B-B of (a).

6 is a cross-sectional view showing another embodiment of the mono pump stator according to the present invention;

book,

(A) is a cross-sectional view of a stator of another embodiment which is a mono pump.

(B) is sectional drawing along the C-C line of (a).

<Explanation of symbols for main parts of drawing>

1: raw material 10: mono pump

11: drive shaft 12: ball bearing

13 bearing housing 14 packing part

15 body 16 universal joint

17: stator 17a: stator body

17b: inner wall 17c: outer wall

18: transfer unit 19: rotor

20: outlet 21: raw material inlet

22 discharge port 23 space layer

24: coolant inlet 25: coolant outlet

Hereinafter, described in detail by the accompanying drawings as follows.

5 is an enlarged cross-sectional view of a stator which is a mono pump according to the present invention, (a) is a cross-sectional view of a stator which is a mono pump, and (b) is a cross-sectional view taken along line B-B in (a).

That is, the stator body 17a of the stator 17 is composed of an inner wall 17b and an outer wall 17c, and ends of the inner wall 17b and the outer wall 17c are sealed to each other so that the inner wall 17b and the outer wall ( The space layer 23 is formed between the 17c, and the inner wall 17b has a helical screw shape which is twisted entirely in an oblong shape, and the outer side of the inner wall 17b has a uniform conveying portion 18 of rubber material. It is attached to the thickness, one side of the outer wall (17c) is formed with a cooling water inlet 24 for introducing the cooling water into the space layer 23, the other side of the outer wall (17c) the cooling water in the space layer (23) Cooling water inlet 25 to discharge is formed.

Operation of the mono pump according to the present invention having such a configuration is made the same as described in Figures 2 to 3, so the description until the raw material is introduced into the stator 17 is omitted.

In this case, when the rotor 19 is introduced into the stator 17 and rotated to transfer raw materials, the surface of the rubber material 18 having the same thickness on the outside of the inner wall 17b is uniformly formed throughout. Therefore, the airtightness is maintained between the rotor 19 and the conveying part 18, so that the smooth conveyance of raw materials and the shrinkage rate are the same at any point, so that the surface friction of the surface of the rotor 19 and the conveying part 18 is significantly reduced. Therefore, the phenomenon in which the transfer part 18 is partially worn does not occur.

In addition, when heat is generated by the frictional force between the surface of the rotor 19 and the surface of the transfer unit 18, the coolant flows into the space layer 23 through the coolant inlet 24, and then the coolant outlet 25. By removing the heat by the cooling water (water-cooled) flowing in and circulated in the space layer 23 as it is discharged through the through to completely remove the frictional heat generated between the transfer unit 18 during the rotation of the rotor 19 The wear factor of the transfer part 18 by generation | occurrence | production is eliminated.

6 is a cross-sectional view showing another embodiment of the mono pump stator according to the present invention, (a) is a cross-sectional view of the stator of another embodiment of the mono pump, (b) is a cross-sectional view taken along the line C-C of (a).

That is, the stator body 17a of the stator 17 is formed in the shape of a spiral screw penetrating the inner side and the whole twisted in the shape of an oblong, and the planar body is formed on both sides of the stator body 17a of the spiral screw shape in which the whole is twisted in the oblong shape. Branch portions 17d and 17d 'are provided, and a rubber material conveying portion 18 is attached to a uniform thickness inside the stator body 17a formed in the shape of a spiral screw.

Stator 17 of another embodiment having such a structure, as described above, the transfer part 18 is a stator because the transfer portion 18 of the rubber material is attached to a uniform thickness inside the stator body 17a as described above. The same thickness is formed in the entire body 17a, so that the tolerance between the rotor 19 and the transfer part 18 is uniform as the shrinkage rate is constant at any part, so that the airtightness is well maintained, and the rotor 19 When heat is generated by the frictional force of the surface of the transfer unit 18 and the surface of the stator body 17a, the surface area of the stator body 17a is increased, and the air in the atmosphere circulates through the surface of the stator body 17a. By absorbing heat (air cooling), frictional heat generated between the transfer units 18 during rotation of the rotor 19 is suppressed to the maximum, thereby eliminating wear of the transfer unit 18.

Here, the flange portions 17d and 17d 'are binding portions for binding to the discharge port 22 and the body 15.

As described above, in the present invention, the stator body of the mono pump is manufactured in a two-layer structure of an outer wall and an inner wall, and includes a space layer, and the inner wall is manufactured in an oblong screw shape, or the stator body is an oblong As a whole is formed in a spiral screw shape twisted, and the effective portion of the thickness of the rubber material is attached to form a uniform thickness to have a constant surface as follows.

In other words, precise and proper fusion is maintained between the transfer part and the rotor of the rubber material formed on the stator, so that when the mono pump stops, fluid blocking, high vacuum on the suction side, and high pressure on the outlet are generated to maximize efficiency. Since the start load of the load is reduced, the start is smooth and the cause of the failure is eliminated, thereby reducing power and extending the life.

In addition, due to maintaining proper tolerances between the conveying part and the rotor, frictional heat of the conveying part, which is a rubber material formed on the stator, is extremely reduced, resulting in a significantly longer life of the stator, and cooling water or air in the space layer between the rotor and the conveying part. By suppressing the frictional heat in advance to prevent wear of the conveying portion by the frictional heat it is possible to extend the life of the stator to the maximum.

Claims (2)

The stator 17 is attached to the inside of the cylindrical stator body 17a and is provided with a spiral screw-shaped transfer part 18 that is twisted entirely in an oblong shape, and the rotor 19 flows into the transfer part 18 so that raw materials are introduced. In the mono pump to transfer the high pressure, The stator body 17a is composed of an inner wall 17b and an outer wall 17c, Termination portions of the inner wall 17b and the outer wall 17c are connected to each other to form a space layer 23 between the inner wall 17b and the outer wall 17c. The inner wall 17b is formed in a helical screw shape in which the whole is twisted in an oblong shape, One side of the outer wall (17c) is formed with a cooling water inlet 24 for introducing the cooling water into the space layer 23, The other side of the outer wall (17c) is formed with a cooling water outlet 25 for discharging the cooling water introduced into the space layer 23, The stator of the mono pump, characterized in that the inner portion of the inner wall (17b) is attached to the transfer portion of the rubber material with a uniform thickness. The stator 17 is attached to the inside of the cylindrical stator body 17a and is provided with a spiral screw-shaped transfer part 18 that is twisted entirely in an oblong shape, and the rotor 19 flows into the transfer part 18 so that raw materials are introduced. In the stator of the mono pump to transfer the high pressure, The stator body 17a of the stator 17 is formed in a spiral screw shape through which the inner side is penetrated and the whole is twisted in an oval shape, thereby increasing the surface area, Flange portions 17d and 17d 'are provided on both sides of the stator body 17a of the spiral screw shape, which is twisted in the shape of an oval shape. Stator of the mono-pump, characterized in that the surface area is increased and the inner portion of the stator body (17a) formed in the shape of an elliptical spiral screw attached to the conveying portion 18 of a rubber material with a uniform thickness.