Information
-
Patent Grant
-
6488468
-
Patent Number
6,488,468
-
Date Filed
Wednesday, April 11, 200123 years ago
-
Date Issued
Tuesday, December 3, 200222 years ago
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Inventors
-
Original Assignees
-
Examiners
- Look; Edward K.
- Edgar; Richard A.
Agents
- Lerner, David, Littenberg, Krumholz & Mentlik, LLP
-
CPC
-
US Classifications
Field of Search
US
- 416 231 B
- 415 1691
- 415 1692
- 415 126
- 415 1994
- 415 1995
- 415 220
- 415 221
- 415 230
-
International Classifications
-
Abstract
Centrifugal pumps are disclosed for pumping a pulp suspension including a housing, a rotary shaft mounted within the housing, an impeller including a hub and blades, a wheel disk mounting the blades and including openings for discharging gas generated in the pump, vacuum blades mounted on the hub behind the wheel disk, a vacuum housing enclosing the vacuum blades, the vacuum housing including an outer cylindrical wall which is radially displaced and eccentrically disposed with respect to the vacuum blades, the vacuum housing including a front wall and a rear wall separated from the vacuum blades by a gap, the rear wall being axially adjustable so that the gap between the vacuum blades and the rear wall can be adjusted to adjust the vacuum generated thereby, and a passageway for communication between the openings in the wheel disk and the suction opening.
Description
FIELD OF THE INVENTION
The present invention relates to a centrifugal pump for pulp suspensions of lignocellulosic material. More particularly, the present invention relates to a pump where a gas, such as air, is separated from the pulp in the pump.
Gas which follows along with the pulp can cause significant problems during pumping with centrifugal pumps. The gas in the pulp collects in the form of bubbles, which accumulate in front of the impeller whereby the capacity of the pump deteriorates. This problem can be overcome by evacuating the gas from the space in front of the impeller, such as by means of vacuum pumps of the type comprising liquid ring pumps. These pumps often comprise a separate vacuum pump, whose suction line is connected to the sealing space of the pulp pump. These pumps can also be designed as a separate vacuum impeller in the form of a liquid ring impeller located on the shaft of the pulp pump so that a common drive for both impellers is obtained.
In the cases when a separate vacuum pump is used, the pulp pump becomes relatively complicated and expensive, due to the fact that several components are required in the system. When, a separate liquid ring impeller of a conventional type is placed on the same shaft as the pulp pump, the capacity of the liquid ring impeller is restricted for reasons of space.
SUMMARY OF THE INVENTION
In accordance with the present invention, these prior art pumps have been improved upon by the discovery of a centrifugal pump for pumping a pulp suspension comprising a housing including a housing inlet for the pulp suspension and a housing outlet for the pumped pulp suspension, a rotatary shaft within the housing, an impeller including a hub and a plurality of blades radially extending from the hub, the impeller mounted for rotation on the rotary shaft, a wheel disk mounting the plurality of blades, the wheel disk including a front face facing the hub and a rear face, the wheel disk including openings for discharging gas generated in the pump, a plurality of vacuum blades mounted for rotation on the hub behind the rear face of the wheel disk, a vacuum housing enclosing the plurality of vacuum blades, the vacuum housing including an outer cylindrical wall radially displaced from the plurality of vacuum blades, the outer cylindrical wall being eccentrically disposed with respect to the plurality of vacuum blades, the vacuum housing further including a front wall proximate to the rear face of the wheel disk, and a rear wall distal from the rear face of the wheel disk and separated from the plurality of vacuum blades by a gap, the front wall including a suction opening for receiving the gas, the rear wall including an exhaust opening for exhausting the gas, the rear wall being axially adjustable whereby the gap between the plurality of vacuum blades and the rear wall can be adjusted in order to adjust the vacuum generated thereby, and a passageway disposed between the rear face of the wheel disk and the front wall for communication between the openings in the wheel disk and the suction opening. Preferably, the front wall includes at least one aperture and the pump includes a dilution chamber disposed radially outwardly with respect to the outer cylindrical wall for supplying dilution liquid to the passageway through the at least one aperture. In a preferred embodiment, the pump includes a shaft seal for the rotary shaft, the shaft seal defining a space axially adjacent to the rear wall, and the dilution chamber includes an opening in communication with the space, whereby the dilution liquid can externally flush the shaft seal.
In accordance with one embodiment of the centrifugal pump of the present invention, the pump includes a connector disposed adjacent to the vacuum chamber, whereby a separate vacuum system can be coupled to the centrifugal pump.
In accordance with the present invention, the aforesaid problems can be eliminated by the vacuum impeller being integrated in the impeller of the pulp pump. The structure of the present invention is compact and simple, and the capacity of the vacuum pump can be easily controlled. The pump is thus formed so that it can easily be combined with a separate vacuum pump, so that both pumps can be used in parallel. Alternatively, the separate vacuum pump can be coupled in at operation drop-out of the integrated vacuum pump according to the present invention in order to ensure accessability for the centrifugal pump.
BRIEF DESCRIPTION OF THE DRAWINGS
The present invention is described in greater detail in the following detailed description which, in turn, refers to the accompanying Figures illustrating an embodiment of the present invention, as follows:
FIG. 1
is a side, elevational, sectional view of a centrifugal pump according to the present invention;
FIG. 2
is a front, elevational view taken along section A—A in
FIG. 1
; and
FIG. 3
is a side, elevational, partial, sectional, enlarged view of FIG.
1
.
DETAILED DESCRIPTION
The centrifugal pump shown in the drawings comprises a pump housing
10
with an inlet
11
and an outlet
12
for the pulp suspension. Such pumps are used at relatively high pulp concentration, for example 8 to 12%. On a rotary shaft
13
in the pump housing
10
an impeller
14
with pump blades
15
is located, which extend from a hub
16
outwardly along a wheel disc
17
. On the rear side of the wheel disc
17
rear blades
18
are located. The wheel disc
17
is formed with openings
19
for discharging gas which has collected in front of the impeller. The openings are preferably formed as slits extending outwardly from the hub
16
.
Behind the wheel disc
17
the hub
16
is provided with vacuum pump blades
50
, which are surrounded by a vacuum pump housing
51
. Vacuum pump housing
51
comprises an outer cylindric wall
52
, a rear wall
53
and a front wall
54
. In order to render mounting and disassembling possible, the vacuum pump housing with its walls is divisible, preferably into two parts; namely, an upper and a lower half. The cylindrical wall
52
is eccentric in relation to the vacuum pump blades
50
, so that a liquid ring pump is formed. In the front wall
54
there is a suction opening
55
for gas, and in the rear wall
53
there is an exhaust opening
56
for gas. These openings,
55
and
56
, are spaced from each other in the circumferential direction, for gas suction into the vacuum pump housing, and gas exhaust from the vacuum pump housing, respectively. This effect is obtained by rotation of the vacuum pump blades and the volume variation in the circumferential direction of the vacuum pump housing as a consequence of the cylindrical wall
52
being disposed eccentrically.
The exhaust opening
56
communicates with a chamber
57
behind the rear wall
53
for gas evacuation through a gas outlet
58
. On the rear side of the impeller
14
, between the wheel disc
17
and the front wall
54
of the vacuum pump housing, a gas passage
59
is located for communication between the openings
19
in the wheel disc
17
and the suction opening
55
.
In a sealing housing
60
in the pump housing
10
, outside the outer wall
52
a dilution chamber
61
is located. This chamber
61
is provided with an inlet
62
for the supply of dilution liquid. Through openings
63
in the front wall
54
, preferably located in the division surfaces in the divided vacuum pump housing
51
, the chamber
61
communicates with the passage
59
, whereby the supplied dilution liquid is utilized both as drive liquid to the liquid ring in the vacuum pump and as flushing liquid in the gas passage
59
. The chamber
61
communicates also by means of a rear opening
67
in the rear wall
53
with a rear space
68
for a shaft sealing
69
. The supplied flushing liquid can thus also be utilized for external flushing of the sealing
69
in the space
68
.
The rear wall
53
of the vacuum pump housing
51
is axially adjustable in the sealing housing
60
by means of an adjusting device
64
for setting an axial gap
65
between the lateral edges of the vacuum pump blades
50
and the rear wall
53
for vacuum control.
An additional connection opening
66
in the sealing housing
60
to the dilution chamber
61
can preferably be provided to render it possible to couple-in a vacuum system or a vacuum pump coupled in parallel (not shown).
When a pulp suspension is pumped from the inlet
11
to the outlet
12
, gas included in the pulp will collect in front of the impeller
14
. The vacuum pump integrated in the hub
16
will then suck the gas through the openings
19
in the wheel disc
17
and, by means of the gas passage
59
, into the vacuum pump, through the suction opening
55
. By means of the pumping effect which is brought about by the vacuum pump blades
50
together with the rotating liquid ring in the vacuum pump housing
51
eccentric with the hub
16
, the gas is pumped out through the exhaust opening
56
and evacuated through the gas outlet
58
.
By adjusting the gap
65
, the capacity of the vacuum pump can be controlled. By increasing the gap width, liquid leakage through the gap will increase, whereby the capacity of the vacuum pump is reduced, and vice versa.
When a separate vacuum pump is to be used, it is coupled to the connection
66
in order to de-air the gas passage
59
through openings
63
and dilution chamber
61
. This separate vacuum pump can then operate in parallel with the integrated vacuum pump according to the present invention, or it can be coupled-in at operation drop-out of the integrated vacuum pump. In this manner, the drive of the centrifugal pump is ensured.
The invention, of course, is not restricted to the embodiments shown, but can be varied within the scope of the claims.
Although the invention herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present invention. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims.
Claims
- 1. A centrifugal pump for pumping a pulp suspension comprising a housing including a housing inlet for said pulp suspension and a housing outlet for said pumped pulp suspension, a rotary shaft within said housing, an impeller including a hub and a plurality of blades radially extending from said hub, said impeller mounted for rotation on said rotary shaft, a wheel disk mounting said plurality of blades, said wheel disk including a front face facing said hub and a rear face, said wheel disk including openings for discharging gas generated in said pump, a plurality of vacuum blades mounted for rotation on said hub behind said rear face of said wheel disk, a vacuum housing enclosing said plurality of vacuum blades, said vacuum housing including an outer cylindrical wall radially displaced from said plurality of vacuum blades, said outer cylindrical wall being eccentrically disposed with respect to said plurality of vacuum blades, said vacuum housing further including a front wall proximate to said rear face of said wheel disk, and a rear wall distal from said rear face of said wheel disk and separated from said plurality of vacuum blades by a gap, said front wall including a suction opening for receiving said gas, said rear wall including an exhaust opening for exhausting said gas, said rear wall being independently axially adjustable whereby said gap between said plurality of vacuum blades and said rear wall is alterable in order to adjust the vacuum generated thereby, and a passageway disposed between said rear face of said wheel disk and said front wall for communication between said openings in said wheel disk and said suction opening.
- 2. The centrifugal pump of claim 1 wherein said front wall includes at least one aperture and including a dilution chamber disposed radially outwardly with respect to said outer cylindrical wall for supplying dilution liquid to said passageway through said at least one aperture.
- 3. The centrifugal pump of claim 2 including a shaft seal for said rotary shaft, said shaft seal defining a space axially adjacent to said rear wall, and said dilution chamber including an opening in communication with said space, whereby said dilution liquid can externally flush said shaft seal.
- 4. The centrifugal pump of claim 1 including a connector disposed adjacent to said vacuum housing, whereby a separate vacuum system can be coupled to said centrifugal pump.
- 5. A centrifugal pump for pumping a pulp suspension comprising a housing including a housing inlet for said pulp suspension and a housing outlet for said pumped pulp suspension, a rotary shaft within said housing, a shaft seal for said rotary shaft, an impeller including a hub and a plurality of blades radially extending from said hub, said impeller mounted for rotation on said rotary shaft, a wheel disk mounting said plurality of blades, said wheel disk including a front face facing said hub and a rear face, said wheel disk including openings for discharging gas generated in said pump, a plurality of vacuum blades mounted for rotation on said hub behind said rear face of said wheel disk, a vacuum housing enclosing said plurality of vacuum blades, said vacuum housing including an outer cylindrical wall radially displaced from said plurality of vacuum blades, said outer cylindrical wall being eccentrically disposed with respect to said plurality of vacuum blades, said vacuum housing further including a front wall proximate to said rear face of said wheel disk, and a rear wall distal from said rear face of said wheel disk and separated from said plurality of vacuum blades by a gap, said shaft seal defining a space axially adjacent to said rear wall, said front wall including a suction opening for receiving said gas and including at least one aperture, a dilution chamber disposed radially outwardly with respect to said outer cylindrical wall for supplying dilution liquid to said passageway through said at least one aperture, said dilution chamber including an opening in communication with said space, whereby said dilution liquid can externally flush said shaft seal, said rear wall including an exhaust opening for exhausting said gas, said rear wall being axially adjustable whereby said gap between said plurality of vacuum blades and said rear wall is alterable in order to adjust the vacuum generated thereby, and a passageway disposed between said rear face of said wheel disk and said front wall for communication between said openings in said wheel disk and said suction opening.
Priority Claims (1)
Number |
Date |
Country |
Kind |
9803495 |
Oct 1998 |
SE |
|
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
PCT/SE99/01755 |
|
WO |
00 |
Publishing Document |
Publishing Date |
Country |
Kind |
WO00/22303 |
4/20/2000 |
WO |
A |
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A |
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A |
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A |
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A |
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A |
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Number |
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EP |
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