JPH07208395A - In-line type centrifugal pump - Google Patents

Abstract

PURPOSE:To provide an in-line type centrifugal pump in which water leaked from between a casing cover and a drive shaft is prevented from entering a motor and the height of the pump can be reduced. CONSTITUTION:In this in-line type centrifugal pump in which a drive shaft 35 extending from a motor 30 is penetrated through a casing cover 15 closing the back opening part of a pump casing 1 and introduced therein, an impeller 36 is fitted to the drive shaft 35, and the drive shaft 35 is sealed by a seal means 26, a partition plate 50 is provided between the motor 30 and the casing cover 15.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an in-line vortex winding device having a suction port formed at one end and a discharge port formed at the other end arranged in a line, which is suitable for use in a pipeline or the like. Regarding pumps.

[0002]

2. Description of the Related Art Generally, in-line spiral pumps are
In a pump casing having a suction port at one end and a discharge port at the other end, an opening is formed on one side surface in a direction intersecting a line connecting the suction port and the discharge port, and the casing cover is provided at the opening. Is attached to close this opening. An electric motor is connected to the casing cover via a bracket, and the drive shaft of the electric motor penetrates the casing cover and is guided to the pump casing to drive the impeller housed in the pump casing. ing.

Therefore, the electric motor projects from one side surface of the pump casing in a direction intersecting the line connecting the suction port and the discharge port of the pump casing, and the protrusion amount of the electric motor is the total height of the pump.

By the way, this kind of in-line type spiral pump has many applications such as being installed in the middle of a straight pipe of air conditioning equipment or installed in the middle of a straight pipe of floor heating equipment. Since such piping for air conditioning equipment and piping for underfloor heating equipment is laid under the ceiling of a double ceiling, under the floor, or inside a wall, the above-mentioned inline swirl pump installed in the middle of these piping is also used. , It will be placed in the ceiling, under the floor or in the wall where there is not enough space. In such use, downsizing of the pump is required, and in particular, it is required to keep the total height of the pump low.

In addition, the installation location of the pump as described above is
Since the space is small, it is difficult to maintain the pump, and frequent maintenance cannot be performed. Therefore, a mechanical seal having high durability is adopted in a seal portion of a pump that is frequently repaired or replaced, that is, a portion where a drive shaft penetrates a casing cover.

[0006]

However, the mechanical seal as described above has a smaller amount of leakage than the gland packing and is excellent in sealing property, but foreign matter such as underwater scale is caught, When air is mixed in the mechanical seal portion, the seal surface may be roughened due to abrasion or the like, and the sealing performance may be sharply reduced to leak a large amount of water at once. Since the leaked water has a high internal pressure of the pump, the leaked water vigorously squirts from the drive shaft through hole of the casing cover toward the electric motor and wets the bearings and windings of the electric motor, which causes a failure of the electric motor. Also, even if a small amount of water leaks, if the water temperature is high, there is a risk that the leaked water will instantly evaporate and enter the inside of the motor, causing the inside of the motor to become damp and lead to malfunctions such as poor insulation. is there.

It is conceivable to adopt a fully-closed type electric motor so that jetted water or steam does not enter the electric motor.
Fully closed type motors have the disadvantage of high cost. Also,
It is possible to eliminate the lower opening of the motor bracket that covers the lower surface of the electric motor, but this lower opening is an air intake hole that promotes air convection to prevent the temperature of the electric motor from rising, so block this. Then, the outside air introduction hole has to be formed in another place, and there are disadvantages that special processing and parts are required, and convection cannot be smoothly performed.

For this reason, a primitive means such that the electric motor is separated from the casing cover to increase the distance is used, but there is a drawback that the total height of the pump is increased because the protrusion height of the electric motor is increased.

Therefore, it is an object of the present invention to provide an in-line spiral pump which can prevent water leaking from between the casing cover and the drive shaft from entering the electric motor and can keep the pump height low. Is what you are trying to do.

[0010]

In order to achieve the above object, the invention of claim 1 has a suction port at one end and a discharge port at the other end, and a line connecting the suction port and the discharge port is provided. A pump casing having an opening formed on one side surface in the intersecting direction, a casing cover closing the opening of the pump casing, and an impeller attached to a drive shaft penetrating the casing cover and rotated in the pump casing. And an electric motor connected to the casing cover to rotate the drive shaft, and a sealing means for sealing the drive shaft penetrating the casing cover, in an inline spiral pump, comprising: the electric motor and the casing cover. It is characterized in that a partition plate is provided between them.

The invention according to claim 2 is characterized in that the partition plate has a peripheral edge portion sandwiched between the electric motor bracket and the casing cover. The invention according to claim 3 is characterized in that a protrusion that is elastically deformed when sandwiched between the electric motor bracket and the casing cover is provided on the peripheral edge of the partition plate. The invention of claim 4 is
A discharge port is provided on the casing cover side of the partition plate so as to connect the internal space and the outside.

[0012]

According to the invention described in claim 1, since the partition plate is provided between the electric motor and the casing cover, the water and steam leaking from the seal portion can be blocked by the partition plate. Is prevented from entering.

According to the second aspect of the invention, since the edge of the partition plate is sandwiched between the electric motor bracket and the casing cover, no special bolt or other attachment is required. According to the invention of claim 3, since the elastic plate is provided with a projecting portion on the peripheral portion of the partition plate, when the peripheral portion is sandwiched between the electric motor bracket and the casing cover, elastic deformation is ensured. It prevents the occurrence of rattling and the like.

According to the fourth aspect of the present invention, since the discharge port is provided on the casing cover side of the partition plate so as to communicate the internal space with the outside, water or steam blocked by the partition plate is discharged to the outside through the discharge port. You will be escaped.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the illustrated embodiment. The drawing shows an in-line type direct-acting single-suction type spiral pump, in which 1 is a cast pump casing. As shown in FIGS. 4 and 5, the pump casing 1 has a suction port 2 at one end and a discharge port 3 at the other end, and the suction port 2 and the discharge port 3 are arranged in a line. A partition wall 4 for partitioning the suction port 2 side and the discharge port 3 side is formed in the pump casing 1, and the partition wall 4 is provided with respect to a line connecting the suction port 2 and the discharge port 3. The inlet 5 is opened in the intersecting direction. An opening 6 is formed on one side surface of the pump casing 1, that is, a back surface (upper surface) so as to face the introduction port 5, and the opening 6 is also formed on the suction port 2 and the discharge port 3.
It opens in the direction that intersects the line that connects the two. A rising side wall 7 is formed in the opening 6, and a flange 8 is formed at the opening end of the rising side wall 7. A plurality of mounting holes 9 ... Is formed in the flange portion 8.

A plurality of drain ports 10 corresponding to the discharge ports of the present invention are formed on the rising side wall 7 and are spaced apart from each other in the circumferential direction.
Are formed. This drain port 10 is the flange portion 8
It is a notch-shaped opening extending up to. Furthermore, a step portion 11 is formed on the inner surface of the rising side wall 7.

A casing cover 15 is attached to the opening 6 of the pump casing 1. The casing cover 15 is also made of cast iron and closes the opening 6 of the pump casing 1. The casing cover 15 is shown in FIG.
As shown in FIG. 7 and FIG. 7, a through hole 16 is formed in the center, and the mechanical seal 26 is formed in the through hole 16.
The drive shaft 35 is configured to penetrate therethrough. A rising side wall 17 is also formed on the casing cover 15, and a flange portion 18 is formed at the open end of the rising side wall 17. Further, a step portion 19 is formed on the outer surface of the rising side wall 17, and the step portion 19 is adapted to be fitted to the step portion 11 of the pump casing 1. The O-ring 22 shown in FIG. 1 is sandwiched between the two step portions 11 and 19.
As a result, the casing cover 15 becomes the pump casing 1.
It is attached liquid-tightly to.

The rising side wall 1 of the casing cover 15
7 also has drainage ports 20 ... Corresponding to the discharge port of the present invention. These drainage ports 20 ... Are in communication with the drainage ports 10 ... Formed in the pump casing 1, and these drainage ports 20 ... And 10 ... Are in communication with the upper space 25 of the casing cover 15 and the outside of the pump. .

An electric motor 30 is attached to the pump casing 1. The electric motor 30 has a bracket 3 at the end.
1 are connected, and a flange portion 32 is formed at an end portion of the bracket 31. The flange portion 32 faces the flange portion 8 formed in the pump casing 1, and has fixing holes 33 ... That face the plurality of mounting holes 9 formed in the flange portion 8. These fixing holes 33
When the fixing bolts 34 are inserted into the mounting holes 9 and the mounting holes 9 to fasten the flange portion 32 and the flange portion 8, the electric motor 30 is fixed to the pump casing 1. In this case, the flange portion 18 formed on the casing cover 15 is sandwiched between the flange portion 32 of the electric motor bracket 31 and the flange portion 8 of the pump casing 1.
The casing cover 15 is fixed to the pump casing 1 by this holding.

A drive shaft 35 is projected from the electric motor 30. The drive shaft 35 extends through the through hole 16 formed in the casing cover 15 and is guided into the pump casing 1. An impeller 36 is attached to the drive shaft 35, and the impeller 36 is housed in the pump casing 1 so as to face the inlet 5.

Therefore, when the impeller 36 is rotated by the operation of the electric motor 30, water is sucked from the suction port 2 through the introduction port 5, and the water is pressurized by the impeller 36 and sent out from the discharge port 3. There is.

A mechanical seal 26 is mounted between the casing cover 15 and the impeller 36, and the mechanical seal 26 seals between the drive shaft 35 and the casing cover 15.

The electric motor bracket 31 includes a support wall 3
8 is formed, and a bearing 39 is attached to the support wall 38. The drive shaft 35 of the electric motor 30 is pivotally supported by the bearing 39. Then, on the drive shaft 35,
A draining collar 40 is attached to a space 25 provided between the electric motor 30 and the casing cover 15. The water drainage collar 40 prevents water leaking from the mechanical seal 26 from passing through the drive shaft 35 and entering the electric motor 30 side.

The side wall of the motor bracket 31 has an intake hole 4
5 is formed, and the vent hole 4 is formed in the support wall 38.
6 is formed, and an exhaust hole 47 is formed in the side wall of the casing of the electric motor 30. During operation of the pump, outside air is introduced from the intake hole 45 by convection due to heat generation of the electric motor 30, and this outside air is introduced into the electric motor 30 through the ventilation hole 46 formed in the support wall 38 and discharged through the exhaust hole 47. It has become. As a result, the electric motor 30 is air-cooled by convection.

A partition plate 50 according to the present invention is mounted in the space 25 secured between the electric motor 30 and the casing cover 15. The partition plate 50 divides the space 25 into the casing cover 15 side and the electric motor 30 side, and may be made of metal, but in this embodiment, it is made of heat-resistant and heat-insulating synthetic resin. There is. As shown in FIG. 3, the partition plate 50 has an insertion hole 51 at the center thereof, into which the drive shaft 35 is inserted. The diameter of the insertion hole 51 is smaller than the outer diameter of the drainage collar 40. When the drainage collar 40 is not used, the hole diameter of the insertion hole 51 of the partition plate 50 is slightly larger than that of the drive shaft 35, and a small gap is formed between the drive shaft 35 and the drive shaft 35.

A large number of ribs 52 are formed at intervals in the circumferential direction on the partition plate 50, and a plurality of ribs 52 are formed on the peripheral portion as shown in FIG. 3C. The raised pieces 53 are formed. The protrusions 53 ... Correspond to the elastic protrusion of the present invention, and can be elastically deformed by cutting and raising. Then, the height t ₂ of the tip end portions of these protruding pieces 53 ... In the free state.
Is formed to have a larger dimension (t ₁ <t ₂ ) than the thickness t ₁ of the partition plate 50. In addition, as shown in FIG. 3D, the partition plate 50 is formed with overhanging portions 54, which slightly project in the outer diameter direction, as shown in FIG. 3D.

The partition plate 50 is fixed to the casing cover 15 by being sandwiched between the flange portion 18 formed on the casing cover 15 and the flange portion 32 of the electric motor bracket 31 at the peripheral edge thereof. In this case, the flange portion 32 of the electric motor bracket 31 is formed with a recess 32a into which the peripheral edge of the partition plate 50 fits. The depth of the recess a32 is (height) T corresponds to the thickness t ₁ of the partition plate 50, there as a slightly T> t _1, also the outer diameter of the recess a32 corresponds to the outer diameter of the partition plate 50 is doing. The peripheral portion of the partition plate 50 is the electric motor bracket 3
The flange portion 18 of the casing cover 15 and the electric motor bracket 31 are fitted to the concave portion 32a of the flange portion 32 of No. 1.
It is sandwiched between the flange portion 32 and.

As described above, the flange portion 18 of the casing cover 15 is sandwiched between the flange portion 32 of the electric motor bracket 31 and the flange portion 8 of the pump casing 1, and thus the partition plate. 5
0 is also sandwiched between the flange portion 32 of the electric motor bracket 31 and the flange portion 8 of the pump casing 1, and in the case of the present embodiment, the flange portion 8 of the pump casing 1 and the casing cover are eventually brought about. 15 flange parts 1
8 and the partition plate 50 and the flange portion 32 of the electric motor bracket 31 are fastened together by fixing bolts 34.

In this case, since the axial contact surfaces of the flange portion 8 of the pump casing 1, the flange portion 18 of the casing cover 15 and the flange portion 32 of the electric motor bracket 31 are all metal working surfaces, the dimensional accuracy in the axial direction is improved. Can be higher. In particular, this example shows the mechanical seal 26.
However, if the dimensional accuracy in the axial direction is not high, the surface pressure of the sealing surface of the mechanical seal 26 may vary and leakage may occur, but this problem can be avoided by the above configuration.

Further, the protruding pieces 53 formed on the peripheral edge of the partition plate 50 are elastically deformed because they are sandwiched between the flange portion 18 of the casing cover 15 and the flange portion 32 of the electric motor bracket 31, and are substantially deformed. Then, it is deformed so as to have a depth equal to the depth T of the recess a32. Due to this elastic deformation, the protruding piece 5
3 ... Are elastically attached even if the depth (height) T of the recess 32a varies. Further, the protrusions 54 ... Formed on the outer periphery of the partition plate 50 come into pressure contact with the inner diameter of the recess 32a, and even if the inner diameters of the recess 32a are slightly varied, the protrusions 54 ... Contact. Because of this, when assembling and disassembling
The partition plate 50 is the flange portion 32 of the electric motor bracket 31.
Since the partition plate 50 is fitted and locked in the recess 32a of the partition plate 50, the partition plate 50 does not fall off from the flange portion 32 of the motor bracket 31, and the partition plate 50 does not fall when vibration or the like is applied.
It is possible to prevent rattling and vibration noise.

Such a partition plate 50 divides the space 25 secured between the support wall 38 of the electric motor bracket 31 and the casing cover 15 into upper and lower parts. The partition plate 50 is closer to the electric motor bracket 31 than the partition plate 50. The intake hole 45 is opened, and the drain ports 20 ... And 10 ... Are opened on the casing cover 15 side. Reference numeral 41 is a terminal box attached to the electric motor 30.

The in-line spiral pump having such a structure is often installed in the middle of piping of an air conditioner or the like. However, the mechanical seal 26 for sealing the drive shaft 35 deteriorates or the mechanical seal 26 that seals the drive shaft 35 is deteriorated due to long-term use. When foreign matter such as underwater scale is caught in the seal 26, or air is mixed into the mechanical seal 26, the seal surface becomes rough due to abrasion, the sealing performance is suddenly deteriorated, and a large amount of water is discharged all at once. It may leak.

Such a leak is vigorously ejected toward the electric motor 30 through the drive shaft 35 and the through hole 16 because the internal pressure of the pump is high. Since the drive shaft 35 is provided with the water drainage collar 40, it prevents leaked water from passing through the drive shaft 35 and entering the electric motor 30 side. However, when the amount of leaked water is large or the momentum is strong, etc. However, it is impossible to prevent it by the water draining collar 40. In this embodiment, since the partition plate 50 is installed in the middle of the space 25, the partition plate 50 blocks the leaked water.

Therefore, the leaked water can be prevented from entering the electric motor 30, the bearing 39 and the winding (not shown) of the electric motor 30 are not wetted, and the electric motor 30 can be prevented.
It is possible to prevent the breakdown. If the water temperature is high even with a small amount of water leakage, the leaked water instantly evaporates and enters the inside of the electric motor 30, and the inside of the electric motor 30 is filled with moisture to cause a failure such as insulation failure. Although worried, steam is prevented from entering the electric motor 30 side by the partition plate 50. Then, the water or steam that is prevented from entering the electric motor 30 side by the partition plate 50 has a drain port 20 formed on the rising side wall 17 of the casing cover 15 and a drain port 1 formed on the rising side wall 7 of the pump casing 1.
It is discharged to the outside through 0 ... Therefore, the electric motor 30
No water or steam gets inside.

Further, since the partition plate 50 is formed closer to the casing cover 15 than the intake hole 45 formed in the side wall of the electric motor bracket 31, the outside air is taken in from the intake hole 4
When the convection that is introduced from 5 and discharged from the exhaust hole 47 through the inside of the electric motor 30 occurs, the partition plate 50 partitions the casing cover 15 side, so the heat on the casing cover 15 side is removed by the convection. There is no need to be caught and brought into the electric motor 30.
It is possible to prevent the temperature rise.

Because of this, it is not necessary to employ a fully-closed electric motor, and the cost can be kept low. Further, the electric motor 30 does not have to be largely separated from the casing cover 15 to secure a distance, and the electric motor 30 can be brought close to the pump casing 1 to be connected. Therefore, since the protruding height of the electric motor can be reduced, the total height of the pump can be reduced, and the size can be reduced.

The in-line whirlpool pump is not limited to the case where the suction port 2 and the discharge port 3 are used in a horizontal posture, but may be installed in the vertical direction. However, the in-line spiral pump of the present invention can be applied.

Further, the present invention is not limited to the use of the mechanical seal 26, and the drive shaft 35 may be sealed by a seal structure using a gland packing, and such a structure may be used for a long time. Even when a situation such as leakage occurs when the sealability is impaired by the above, the same effect is exhibited.

[0039]

As described above, according to the present invention, since the partition plate is provided between the electric motor and the casing cover, water and steam leaking from the seal portion can be blocked by this partition plate. , Is prevented from entering the motor.
Therefore, it is not necessary to separate the casing cover and the drive shaft from each other, and the pump height can be kept low.
The size of the pump can be reduced.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing an essential part of an inline spiral pump according to an embodiment of the present invention.

FIG. 2 is a sectional view showing an entire inline-type spiral wound pump according to the embodiment.

3A and 3B show a partition plate of the same embodiment, in which FIG. 3A is a plan view, FIG. 3B is a cross sectional view, and FIG. 3C is CC in FIG.
Sectional drawing which follows the line, (D) figure is sectional drawing which follows the DD line of (A) figure.

FIG. 4 is a plan view of the pump casing according to the embodiment.

FIG. 5 is a sectional view of the pump casing.

FIG. 6 is a plan view of the casing cover according to the embodiment.

FIG. 7 is a sectional view of the casing cover.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Pump casing 2 ... Suction port 3 ... Discharge port 6 ... Opening part 8 ... Flange part 10 ... Drainage port 15 ... Casing cover 18 ... Flange part 20 ... Drainage port 25 ... Gap 26 ... Mechanical seal 30 ... Electric motor 31 ... Bracket 32 ... Flange portion 34 ... Fixing bolt 35 ... Drive shaft 36 ... Imperator 39 ... Bearing 40 ... Draining flange 45 ... Intake hole 46 ... Vent hole 47 ... Exhaust hole 50 ... Partition plate 51 ... Insertion hole 52 ... Rib 53 ... Projection piece 54 … Overhang

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[Procedure amendment]

[Submission date] March 14, 1994

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] 0027

[Correction method] Change

[Correction content]

The partition plate 50 is fixed to the casing cover 15 by being sandwiched between the flange portion 18 formed on the casing cover 15 and the flange portion 32 of the electric motor bracket 31 at the peripheral edge thereof. In this case, the flange portion 32 of the electric motor bracket 31 is formed with a recess 32a into which the peripheral edge of the partition plate 50 fits. The depth (height) T of the recess 32a corresponds to the plate thickness t ₁ of the partition plate 50, and is slightly T> t ₁ , and the outer diameter of the recess 32a corresponds to the outer diameter of the partition plate 50. is doing. The peripheral portion of the partition plate 50 is the electric motor bracket 3
The flange portion 18 of the casing cover 15 and the electric motor bracket 31 are fitted to the concave portion 32a of the flange portion 32 of No. 1.
It is sandwiched between the flange portion 32 and.

[Procedure Amendment 2]

[Document name to be amended] Statement

[Name of item to be corrected] 0030

[Correction method] Change

[Correction content]

Further, the protruding pieces 53 formed on the peripheral edge of the partition plate 50 are elastically deformed because they are sandwiched between the flange portion 18 of the casing cover 15 and the flange portion 32 of the electric motor bracket 31, and are substantially deformed. It is deformed so as to have a depth equal to the depth T of the recess 32a . Due to this elastic deformation, the protruding piece 5
3 ... Are elastically attached even if the depth (height) T of the recess 32a varies. Further, the protrusions 54 ... Formed on the outer periphery of the partition plate 50 come into pressure contact with the inner diameter of the recess 32a, and even if the inner diameters of the recess 32a are slightly varied, the protrusions 54 ... Contact. Because of this, when assembling and disassembling
The partition plate 50 is the flange portion 32 of the electric motor bracket 31.
Since the partition plate 50 is fitted and locked in the recess 32a of the partition plate 50, the partition plate 50 does not fall off from the flange portion 32 of the motor bracket 31, and the partition plate 50 does not fall when vibration or the like is applied.
It is possible to prevent rattling and vibration noise.

Claims (4)

[Claims] 1. A pump casing having a suction port at one end and a discharge port at the other end, and an opening formed on one side surface in a direction intersecting a line connecting the suction port and the discharge port; A casing cover that closes the opening of the casing, an impeller that is attached to a drive shaft that penetrates the casing cover and that is rotated in the pump casing, and an electric motor that is connected to the casing cover and that rotates the drive shaft, An inline swirl pump, comprising: a sealing means for sealing a drive shaft passing through the casing cover, wherein a partition plate is provided between the electric motor and the casing cover. 2. The inline swirl pump according to claim 1, wherein a peripheral edge portion of the partition plate is sandwiched between the electric motor bracket and the casing cover. 3. The in-line vortex according to claim 2, wherein a protrusion that is elastically deformed when sandwiched between the electric motor bracket and the casing cover is provided on a peripheral portion of the partition plate. Volume pump. 4. The inline swirl pump according to claim 1, wherein a discharge port is provided on the casing cover side of the partition plate so as to communicate the internal space with the outside.