KR100953260B1 - Vertical type multi pump - Google Patents

Abstract

PURPOSE: A vertical multistage pump is provided to reduce manufacturing costs by simplifying the structure of the pump. CONSTITUTION: A vertical multistage pump comprises: a lower casing(10) wherein a fluid inlet connects to the inside in one side and an opening is formed at the center of inside top; a pumping unit(20) which comprises an impeller(21) which applies pressure to the fluid and covers the opening, a casing(22) which covers the impeller and has a through hole, fluid outlets(22a) are formed at the top and bottom of the casing; and a pumping motor which coupled with the impeller and gradually pumps by rotating the impeller at high speed.

Description

Vertical type multi pump

The present invention relates to a vertical multistage pump, and more particularly, by configuring a pumping unit that is separately separated in multiple stages, it is possible to freely adjust the fluid at a desired pressure, thereby improving the reliability of the product, and also the impeller It is related to the vertical multistage pump that the flow path is naturally formed through the structure that covers the diffuser and the casing covers the diffuser, and the overall structure of the pump is simplified, thereby reducing manufacturing costs and facilitating assembly work. .

In general, a pump is a machine that continuously supplies energy to a liquid by a given power from the outside. The pump may move the liquid from a low place to a high place or increase a low pressure state to a high pressure depending on the method of use.

The state of energy movement is the same as the reverse action of aberrations (water turbines). In the case of handling gas, such as a vacuum pump that lowers the pressure of the gas below atmospheric pressure, it is a pump but generally refers to a machine that handles liquids.

Such a pump is driven by a motor such as an electric motor or an internal combustion engine to transfer its mechanical energy to a fluid. In particular, a pump for pressurizing and supplying a liquid below is a vertical pump.

As an example, a schematic view of a vertical pump of the prior art has a configuration in which an impeller for rotating a fluid at a high speed while a shaft is rotated inside a casing or a diffuser for dispersing a fluid at a high speed is upwardly provided.

However, since the vertical pump of the prior art as described above has a standardized structure having a constant size of the casing, it is impossible to change the pressure of the fluid, so that only a constant pressure fluid is always supplied, thereby reducing the reliability of the product as well as the impeller and the diffuser. Since they are combined in a simple arrangement, the flow path structure is complicated, and thus, the overall structure of the pump is complicated, which increases manufacturing costs and makes assembly work difficult.

The present invention has been made in order to solve such a problem, by configuring a separate pumping unit in multiple stages, it is possible to freely control the fluid of the desired pressure to improve the reliability of the product, and also to improve the impeller The flow path is naturally formed through the structure of the diffuser covering and the casing covering the diffuser, thereby providing a vertical multistage pump that simplifies the overall structure of the pump and reduces manufacturing costs and facilitates assembly work. There is a purpose.

Vertical multistage pump of the present invention devised to achieve this object is the bottom casing is formed with a fluid inlet connected to the inside on one side and the inner central upper opening; The upper casing covers the open upper center and is stacked in multiple stages upwards, and an impeller for pressurizing the fluid and a casing covering the impeller and having a through hole formed in the center of the upper surface are provided, and a plurality of casings provided with a fluid outlet selectively. Pumping part; And a pumping motor configured to rotate the impeller at a high speed in a state in which the impeller and the motor shaft of the pumping parts are axially coupled, so that the fluid is pumped upward in step pressure in each pumping part.

In addition, in the vertical multistage pump according to the present invention, it is preferable that the pumping part further includes a diffuser for supplying another pumping part upward by pressurizing the fluid which is pressurized by the impeller and ejected upward.

In addition, in the vertical multistage pump according to the present invention, the pumping portion, the impeller covers the open upper center of the lower casing or the upper through hole of the other casing, the upper part of the impeller again covers the impeller, and finally As a result, the casing preferably has a structure covering the upper portion of the diffuser.

In addition, in the vertical multistage pump according to the present invention, the impeller has a shaft coupling portion formed in the center so that the motor shaft is coupled through and the upper surface of the upper center of the upper or other casing open of the lower casing adjacent to the shaft coupling portion. A lower plate having a fluid communication hole communicating with the ball, an upper plate spaced apart at a predetermined interval parallel to the lower plate, and having a center connected to the axial coupling portion, and arranged between the lower plate and the upper plate and having upper and lower edges in the fluid through hole of the lower plate. It is preferable that it consists of a plurality of blades formed continuously.

In addition, in the vertical multistage pump according to the present invention, it is preferable that the blades of the impeller have a curved wall structure that draws an arc of constant curvature spaced at equal intervals from the fluid through the edge.

In addition, in the vertical multistage pump according to the present invention, the fluid through the periphery of the impeller extends to the inner peripheral surface of the upper through hole of the upper or upper casing of the lower casing and the sealing member is mounted on the outer peripheral surface of the lower casing and It is preferable that a sealing rib is further formed to seal the upper pumping part casings from each other.

In the vertical multistage pump according to the present invention, the diffuser includes a diffuser main body having a through hole through which a motor shaft penetrates in the center thereof, and an inner space extending downward from an edge of the diffuser main body to cover an impeller. It is preferable that a plurality of blades are formed to communicate with each other and communicate with the internal space therebetween, and pressurize and eject the internal fluid ejected from the impeller upwardly again.

In addition, in the vertical multistage pump according to the present invention, it is preferable that the blades of the diffuser have a circular sawtooth structure that protrudes outwardly while drawing an arc of constant curvature spaced at equal intervals from the edge of the diffuser body.

In addition, in the vertical multistage pump according to the present invention, the auxiliary blade of the curved wall structure is further provided on the upper surface of the diffuser body spaced at equal intervals from the through hole to the edge of the diffuser body to draw a circular arc of constant curvature. desirable.

In addition, in the vertical multistage pump according to the present invention, the fluid discharge port is preferably formed at the lowermost and uppermost casing of the pumping part, respectively.

As described above, the vertical multi-stage pump according to an embodiment of the present invention by configuring a separate pumping unit in multiple stages, it is possible to freely adjust the fluid of the desired pressure to improve the reliability of the product, In addition, the flow path is naturally formed through the structure in which the diffuser covers the impeller and the casing covers the diffuser, thereby simplifying the overall structure of the pump, thereby reducing manufacturing costs and making assembly easier. Get

Hereinafter, the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

As shown in Figure 1 to 8, the vertical multi-stage pump according to an embodiment of the present invention is formed with a fluid inlet 11 connected to the inside on one side and the lower casing 10, the inner central upper is opened, The upper casing 10 of the lower casing (10) is covered with a multi-layered upwards, the impeller 21 for pressurizing the fluid and the casing (22) covering the impeller 21 and the through-hole formed in the center of the upper surface is provided and these A plurality of pumping parts 20 in which the fluid discharge port 22a is selectively provided in a predetermined casing 22, and the impeller 21 and the motor shaft 31 of each of the pumping parts 20 are axially coupled. By rotating the impeller 21 at a high speed, the fluid is configured to include a pumping motor 30 so that the pumping step by step upward pressure in each pumping section (20).

In addition, the inner bottom surface of the lower casing 10 is recessed to support the lower end of the motor shaft 31 so that the lower bearing 12 for smoothly rotating the motor shaft 31 can be mounted. The shaft support groove 12 is formed.

In addition, the pumping unit 20 is further provided with a diffuser 23 for supplying the fluid pressurized again by the impeller 21 and pressurized again to the other pumping unit 20 above.

In this case, the pumping part 20 covers the upper through hole 22b of the central upper part of the lower casing 10 or the upper casing 22 of the lower casing 10, and diffuses the upper part of the impeller 21 again. (23) is overwritten, and the casing 22 finally covers the upper part of the diffuser 23. As shown in FIG.

Through the structure of the pumping unit 20, a zigzag flow path in which the English S-shape (S) shape continues from the lower casing 10 to the uppermost end of the pumping unit 20 is formed.

That is, the fluid inlet 11 of the lower casing 10 flows into the fluid through-hole 21b1 of the impeller 21 through the internal space and exits to the space between the blades 21d, and then continues to the external diffuser 23. Impeller 21 of the pumping part 20 which is ejected upward through the communication hole 23c1 between the blades 23c) and is again ejected upward along the auxiliary blade 23d above and disposed above the blade 23c. The fluid is pressurized to a high pressure in the process of repeating the flow path by the number of the pumping unit 20 along the path guided to the fluid through the hole (21b1) to finally supply the fluid of the desired pressure in the upper pumping unit 20 will be.

The impeller 21 has a shaft coupling portion 21a formed at the center of the motor shaft 31 so as to penetrate therethrough, and the central upper or other casing of the lower casing 10 opened near the shaft coupling portion 21a. A disk-shaped lower plate 21b having a fluid through-hole 21b1 communicating with the upper surface through-hole 22b of 22, and spaced upwardly in parallel with the lower plate 21b at regular intervals, the center of which is the axial coupling portion 21a. The upper plate (21c) of the disk-shaped connected to the, and the lower plate (21b) and the upper plate (21c) disposed between the continuous through-holes 21b1 of the lower plate (21b) from the upper and lower plates (21c, 21b) It consists of a plurality of blades 21d.

Here, the blades 21d of the impeller 21 are spaced at equal intervals from the fluid through holes 21b1 to the edges so as to have a curved wall structure that draws an arc of constant curvature.

In addition, the edge of the fluid through-hole 21b1 of the impeller 21 extends to the inner circumferential surface of the upper center through-hole 22b of the lower center casing 10 or the upper casing 22 of the other casing 22, and the sealing member 40 on the outer circumferential surface thereof. Is attached to the lower casing 10 and the upper pumping unit 20, the sealing ribs 21e of the cylindrical shape for sealing the casing 22 to each other is formed.

The diffuser 23 has a disk-shaped diffuser main body 23a having a through hole 23a1 through which the motor shaft 31 penetrates in the center thereof, and extends downward from an edge of the diffuser main body 23a to impeller 21. The inner space 23b is formed to cover the gap, and a communication hole 23c1 communicating with the inner space 23b is provided therebetween, and pressurizes and ejects the internal fluid ejected from the impeller 21 upwardly. It is a structure provided with the some blade 23c for making it.

The blades 23c of the diffuser 23 are spaced at equal intervals from the edges of the diffuser body 23a to form circular arcs having a predetermined curvature and protrude outward.

In addition, a plurality of auxiliary blades 23d having a curved wall structure are formed on the upper surface of the diffuser main body 23a at equal intervals from the through hole 23a1 to the edge of the diffuser main body 23a to draw arcs of a certain curvature. have.

The fluid discharge ports 22a are formed at the lowermost and uppermost casings 22 of the pumping section, respectively.

Reference numeral 50 denotes an impeller key for integrally coupling the motor shaft 31 and the impeller 21, and 52 represents a bearing key for integrally coupling the motor shaft 31 and the lower bearing 12, 54 shows a sleeve interposed between the motor shaft 31 and the through hole 23a1 of the diffuser 23, 56 shows an O-ring interposed between the casings 20 including the lower casing 10, 58 shows support parts for supporting the lower bearing 12 and 60 shows tie bolts for fixing the entire pumping part 20.

Looking at the assembly process of the vertical multistage pump according to an embodiment of the present invention according to this configuration, first, the lower end of the motor shaft 31 of the pumping motor 30 is inserted into the shaft support groove 13 of the lower casing 10 bearing And a sealing member 40 on the outer circumferential surface of the sealing rib 21e toward the center of the lower casing 10 so that the shaft coupling portion 21a penetrates to the outer circumferential surface of the motor shaft 31. After mounting the mounted impeller 21, the impeller key 50 is fixed to the motor shaft 31 and the impeller 21 integrally.

Then, the process of covering the diffuser 23 above the impeller 21 and again covering the casing 22 above the diffuser 23 is repeated stacking a plurality of corresponding pumping units 20. Let's do it.

At this time, an O-ring 56 is interposed between each pumping unit 20 including the lower casing 10 to seal them.

When the stacking of the pumping unit 20 is completed, the multi-stage pumping unit 20 is fixed through the tie bolts 60, and then the motor shaft 31 is connected to the pumping motor 30 to vertically connect the pump. Complete the assembly of the multistage pump.

Looking at the operation of the vertical multi-stage pump is assembled as described above, first immersing the pump in the fluid and then operating the pumping motor 30, the motor shaft 31 is rotated by the axis of the impeller of each pumping unit 20 ( 21) Rotate the shaft.

Then, the fluid is radially ejected by the blades 21d of the impeller 21, and then is ejected upward through the blade 23c of the diffuser 23, and the fluid ejected upward is again diffused by the diffuser 23. While being ejected upward to the auxiliary blade (23d) of the upper surface while being moved to the other pumping unit 20 of the upper side is gradually pressed upwards through the plurality of pumping unit 20, the highest in the uppermost pumping unit (20) Will be able to obtain the desired pressure fluid.

Looking at the flow of such a fluid in detail, the present invention is a zigzag structure of the English S-shape (S) shape is continuous from the bottom casing 10 to the top end of the pumping unit 20 through the above pumping unit 20 structure A flow path is formed, i.e., flows into the fluid through-hole 21b1 of the impeller 21 through the internal space at the fluid inlet 11 of the lower casing 10, and exits to the space between the blades 21d, and subsequently the The pumping part 20 which is ejected upward through the communication hole 23c1 between the blades 23c of the external diffuser 23, is again ejected upward along the auxiliary blade 23d above and disposed above. In the process of repeating the flow path by the number of the pumping unit 20 along the path guided to the impeller 21 fluid through hole 21b1 of the fluid is finally pressurized to high pressure and finally the fluid of the desired pressure in the upper pumping unit 20 To supply It is.

Meanwhile, in the present invention, the fluid discharge ports 22a are formed at the lowermost and uppermost ends of the pumping unit 20, respectively, so that the fluid pressurized by the respective pumping units 20 can be supplied to a desired object.

In addition, the fluid discharge port 22a may be formed at the lowermost and upper end portions, and the multi-stage pump may be configured in various combinations within a range that allows the user to obtain a desired pressure.

 As described above, the present invention has been described with reference to the above preferred embodiments, but the embodiments to which such embodiments are simply combined with conventionally known techniques, as well as the technical field of the present invention in the claims and detailed description of the present invention. It will be appreciated that those skilled in the art can readily be modified and used within the technical scope of the present invention.

1 is a perspective view showing a vertical multistage pump according to an embodiment of the present invention.

2 is an exploded perspective view showing main parts of a vertical multistage pump according to an exemplary embodiment of the present invention.

Figure 3 is a schematic cross-sectional view showing a vertical multistage pump according to an embodiment of the present invention.

4 is a cross-sectional view showing an impeller in a vertical multistage pump according to an embodiment of the present invention.

5 is a plan view showing an impeller of a vertical multistage pump according to an embodiment of the present invention.

Figure 6 is a cross-sectional view showing the diffuser of the vertical multi-stage pump according to an embodiment of the present invention.

7 is a plan view showing a diffuser in a vertical multistage pump according to an embodiment of the present invention.

8 is an enlarged cross-sectional view illustrating main parts of a fluid flow path of a vertical multistage pump according to an exemplary embodiment of the present invention.

** Description of symbols for the main parts of the drawing **

10: lower casing 11: fluid inlet

12: lower bearing 13: shaft support groove

20: pumping part 21: impeller

21a: shaft coupling portion 21b: lower plate

21b1: fluid through 21c: top plate

21d: blade 21e: sealing rib

22: casing 22a: fluid outlet

22b: through hole 23: diffuser

23a: diffuser body 23a1: through hole

23b: internal space 23c: blade

23c1: Communication hole 23d: Auxiliary blade

30: pumping motor 31: motor shaft

40: sealing member 50: impeller key

52: bearing key 54: sleeve

56: O-ring 58: support parts

60: tie bolt

Claims (10)

A lower casing 10 having a fluid suction port 11 connected to the inside at one side thereof and having an inner center upper portion thereof open; The upper casing 10 of the lower casing (10) is covered with a multi-stage upwardly stacked, but the impeller 21 for pressurizing the fluid and the casing (22) covering the impeller 21 and the through hole formed in the center of the upper surface is provided and the lowest end And a plurality of pumping parts 20 having fluid outlets 22a respectively provided at uppermost casings 22. And A pumping motor for rotating the impeller 21 at a high speed in a state in which the impeller 21 and the motor shaft 31 of the pumping units 20 are coupled to the shaft at a high speed so that the fluid is pumped upward step by step in each of the pumping units 20. 30; Consists of including The pumping unit 20 is further provided with a diffuser 23 for supplying to the other pumping unit 20 to pressurize again the fluid pressurized by the impeller 21 and ejected upwards, In the pumping part 20, the impeller 21 covers the open upper center hole 22b of the lower casing 10 or the upper casing 22b of the other casing 22, and the upper part of the impeller 21 is diffused again. (23) is covered, the vertical multi-stage pump, characterized in that the casing (22) covers the upper portion of the diffuser (23). delete delete The method of claim 1, The impeller 21 has a shaft coupling portion 21a formed at the center of the motor shaft 31 so as to penetrate therethrough, and the central upper or other casing of the lower casing 10 opened adjacent to the shaft coupling portion 21a. A lower plate 21b having a fluid through hole 21b1 communicating with the upper surface through hole 22b of 22, spaced upwardly in parallel with the lower plate 21b at a predetermined interval, and a center thereof with the axial coupling portion 21a; The plurality of blades 21d arranged between the upper plate 21c and the lower plate 21b and the upper plate 21c connected to each other and continuously formed from the fluid through hole 21b1 of the lower plate 21b to the upper and lower edges of the lower plate 21c and 21b. Vertical multistage pump, characterized in that consisting of. The method of claim 4, wherein Blades 21d of the impeller 21 is a vertical multistage pump, characterized in that the curved wall structure drawing an arc of constant curvature spaced at equal intervals from the fluid through the hole (21b1) to the edge of the impeller (21). The method of claim 4, wherein An open center upper portion of the lower casing 10 or an inner circumferential surface of the upper through hole 22b of the other casing 22 is formed at the edge of the fluid through-hole 21b1 of the impeller 21, and the sealing member 40 is mounted on the outer circumferential surface thereof. The lower casing (10) and the upper pumping unit 20, the vertical multistage pump, characterized in that the sealing rib (21e) for sealing each other is further formed. The method of claim 1, The diffuser 23 has a diffuser body 23a having a through hole 23a1 through which the motor shaft 31 penetrates in the center thereof, and extends downward from an edge of the diffuser body 23a to cover the impeller 21. A communication hole 23c1 is formed to form an inner space 23b so as to be covered, and a communication hole 23c1 communicating with the inner space 23b is interposed therebetween, and pressurizes and ejects the internal fluid ejected from the impeller 21 upward. Vertical multistage pump, characterized in that a plurality of blades (23c) is provided. The method of claim 7, wherein Blade (23c) of the diffuser 23 is a vertical multistage pump, characterized in that the circular tooth structure is projected outwardly to the arc of a certain curvature spaced at equal intervals at the edge of the diffuser body (23a). The method of claim 7, wherein The auxiliary blade 23d of the curved wall structure is further provided on the upper surface of the diffuser body 23a spaced at equal intervals from the through hole 23a1 to the edge of the diffuser body 23a to draw an arc of constant curvature. Vertical multistage pump. delete

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