JP2004332579A - Pump with built-in screen - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pump with a built-in screen, which automatically solves plugging of the screen and also can forcibly feed solid foreign matter to the outside of a draining device, by eliminating all working such as a troublesome solid matter scraping off/eliminating working and a scraped off/eliminated solid matter carrying out working from the outside of the draining device. <P>SOLUTION: An impeller 4 used in common for both a water wheel runner and a pump impeller is attached to a pump main spindle 3 and rotatively stored in the inside of a pump casing 5. The annular screen 14 for catching the solid matter fixed on the inner surface of the pump casing 5 is arranged in a position right above the impeller 4 in the inside of the pump casing 5. When the impeller 4 functions as the water wheel runner, the solid foreign matter 15 is caught by the screen 14, and when the impeller 4 functions as the pump impeller, the caught solid foreign matter 15 is back-washed and discharged. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a pump with a built-in screen, and more particularly, to a pump with a built-in screen suitable for draining sewage or sewage containing solid foreign matter such as dust.
[0002]
[Prior art]
When pumping sewage or sewage containing solid foreign matter such as garbage at a sewage relay pumping station, manhole pumping station, drainage pumping station, etc., when the solid foreign matter passes through the pump, the solid foreign matter causes the pump to be clogged. When the "clogging" occurs, it is necessary to perform complicated maintenance after stopping the operation of the pump.
[0003]
For this reason, a screen or dust remover is installed in the suction passage upstream of the pump for the purpose of preventing the solid foreign matter such as dust from passing through the pump and protecting the pump. There is known a suction channel of a pump configured to capture the pressure (see, for example, Patent Document 1).
[0004]
As shown in FIG. 7, the suction passage of this pump includes a suction passage 30, a drainage pump 31, a driving device and a speed reducer 32, a discharge water passage 33, a screen or a dust remover 34, and the like. By trapping dust particles (solid foreign matter), the pump is protected by preventing solid foreign matter from passing through the pump.
[0005]
[Patent Document 1]
JP 06-272299 A
[Problems to be solved by the invention]
However, in the suction flow path of the conventional pump, the suction flow path of the pump provided with the screen 34 is simplified in structure and the initial cost and the running cost are smaller than the suction flow path of the pump provided with the dust remover 34. However, solid foreign matter tends to cause clogging of the screen 34. If the screen 34 is left clogged, the inflow of water into the pump well 35 located downstream of the screen 34 is prevented, so that the drainage function of the drain pump 31 is sufficiently provided during heavy rain or flood. And it may cause malfunction of the drainage plant. For this reason, when the screen 34 is clogged, the solid foreign matter scraped and removed from the screen 34 by hand or the solid foreign matter scraped and removed from the screen 34 is carried out to the outside of the drainage yard by a transport means such as a truck. Extremely complicated and extensive work is required.
[0007]
The present invention has been made in view of such circumstances, and eliminates all the troublesome work of scraping and removing solid foreign matter and the work of removing the scraped and removed solid foreign matter from a drainage machine. It is an object of the present invention to provide a pump with a built-in screen capable of automatically eliminating the above problem and also capable of pumping solid foreign matter to the outside of a drainage plant.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, a pump with a built-in screen according to the invention according to claim 1 is characterized in that an impeller shared by both a water turbine runner and a pump impeller is attached to a rotary shaft so as to be simultaneously rotatable. A screen for capturing solid foreign matter inside the pump casing at a position upstream of the impeller in a flow direction of motive water which is rotatably housed therein and is introduced into the pump casing and rotationally drives the impeller as a water wheel runner. Is provided.
[0009]
Further, the solid foreign matter capturing screen may be fixed.
[0010]
Further, the solid foreign matter capturing screen may be rotatable simultaneously with the impeller.
[0011]
According to the first aspect of the present invention, the sewage or sewage containing solid foreign matter such as dust and dirt is introduced into the pump casing as motive water for rotating the impeller as a water wheel runner. The solid foreign matter mixed into the sewage or sewage introduced into the pump casing is captured by a screen for capturing solid foreign matter provided at a position upstream of the impeller in the pump casing, and the sewage from which the solid foreign matter is captured and separated. Alternatively, the impeller is driven to rotate as a water wheel runner by the contaminated water and is discharged to the outside of the pump casing.
On the other hand, when the rotation shaft and the impeller are rotated by the activation of the prime mover to cause the impeller to function as a pump impeller, sewage or sewage discharged to the outside of the pump casing is sucked into the pump casing, and is already used for capturing solid foreign matter. The solid foreign matter trapped on the screen can be back-washed, and can be pressure-fed together with the back-washed solid foreign matter.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is an overall configuration diagram showing an embodiment of the present invention, and FIG. 2 is an enlarged sectional view showing an example of a main part.
In these figures, a pump P is a vertical shaft pump and is installed in a pump well 2 of a drainage pump station 1. At the lower end of the pump main shaft (rotating shaft) 3 of the pump P, an impeller 4 shared by both a water turbine runner and a pump impeller is mounted so as to be rotatable at the same time, and is rotatably housed inside a pump casing 5. I have. A suction bell 6 is connected to the lower side of the pump casing 5, and a pumping pipe 7 is connected to the upper side thereof. An outlet at the upper end of the pumping pipe 7 is connected to a drain pipe 10 via a discharge curved pipe 8 and a valve 9. It is connected. The drain port [(outlet) not shown] of the drain pipe 10 faces a drain channel not shown. The pump main shaft 3 penetrates the discharge curved pipe 8 in a watertight and rotatable manner and is led out to the outside. The pump main shaft 3 is connected to a prime mover (not shown) and driven to rotate.
[0013]
The sewage or sewage W mixed with solid foreign matter such as garbage is introduced from the inflow channel 11 to the pumping tube 7 via the inflow tube 12. The inflow pipe 12 is provided with a valve 13 and a check valve 20 that allows flow from the inflow pipe 12 to the pumping pipe 7 and prevents backflow from the pumping pipe 7 to the inflow pipe 12.
[0014]
At the position directly above the impeller 4 inside the pump casing 5, an annular solid foreign matter capturing screen 14 composed of a punched metal, a wire mesh, a lattice-like frame, or the like is appropriately fixed to the inner surface of the pump casing 5. It is provided horizontally in the state. The screen 14 may be mounted directly below a guide blade (not shown) disposed above the impeller 4 and fixed horizontally.
[0015]
In the above-described configuration, the sewage or sewage W flowing down to the inflow water channel 11 is rotated by driving the impeller 4 as a water turbine runner in the direction of the dashed arrow R by opening the valve 13 to rotate the impeller 4 as a water wheel runner. Water is introduced into the pump casing 5 as water (see a broken arrow F). Solid foreign matter 15 such as dust mixed into the sewage or sewage introduced into the pump casing 5 is captured by a screen 14 for capturing the solid foreign matter, and the sewage or sewage from which the solid foreign matter 15 has been captured is separated by the impeller 4. Is driven to rotate as a water turbine runner and discharged from the suction bell 6 to the pump well 2.
[0016]
When the water level of the pump well 2 rises to a predetermined level HWL due to the discharge of sewage or sewage from which the solid foreign matter 15 has been captured and separated, the water level is detected and a motor (not shown) is started. When the prime mover drives the pump main shaft 3 and the impeller 4 to rotate in the direction of the solid arrow R1 to make the impeller 4 function as a pump impeller, the sewage or sewage in the pump well 2 is reduced as shown by the solid arrow F1. The solid foreign matter that is sucked into the pump casing 5 from the suction bell 6 and that has the swirling component remaining immediately after passing through the impeller 4 and that is still in the flow of sewage or sewage is captured by the solid foreign matter capturing screen 14. 15 is back-washed, and is sent to a drainage passage (not shown) along the path of the pumping pipe 7 → the discharge curved pipe 8 → the drainage pipe 10 together with the backwashed solid foreign matter 15. In other words, all the troublesome work of scraping and removing the solid foreign matter 15 and the work of unloading the scraped and removed solid foreign matter 15 out of the draining machine, which are conventionally performed, are not required, and the work is simply performed directly above the impeller 4 inside the pump casing 5. With a simple structure in which the annular solid foreign matter capturing screen 14 is fixed at the position, the clogging of the screen 14 can be automatically eliminated, and the solid foreign matter 15 can be sent to the outside of the drainage plant 1 by pressure.
[0017]
In the embodiment described with reference to FIG. 2, the structure in which the screen 14 for capturing solid foreign matter is fixed is described. However, as shown in FIG. 3, the screen 14 rotates simultaneously with the pump main shaft 3 and the impeller 4. It may be configured as follows. That is, the annular solid foreign matter capturing screen 14 has a conical shape in which the vicinity of the outer periphery of the center hole 14A is opposed to the upper surface of the impeller boss 4A and the pump main shaft 3 is inserted above the impeller boss 4A. The screen 14 can be configured to rotate at the same time as the pump main shaft 3 and the impeller 4 by sandwiching the screen 14 with the lower surface of the dust guide 16.
[0018]
With such a configuration, the solid foreign matter 15 such as dust mixed in the sewage or sewage introduced into the pump casing 5 rotates in the direction of the dashed arrow R at the same time as the pump main shaft 3 and the impeller 4 (for example, the forward direction). The sewage or sewage from which the solid foreign matter 15 is caught and separated without being biased by the rotating (solid) foreign matter capturing screen 14 and the impeller 4 is rotated as a water wheel runner to be driven from the suction bell 6 to the pump well 2 Will be released.
[0019]
On the other hand, when the pump main shaft 3 and the impeller 4 are driven to rotate in the direction of the solid line arrow R1 by the start of the prime mover, the screen 14 rotates in the direction of the solid line arrow R1 (reverse rotation). This reverse rotation applies a force in a direction away from the screen 14 to the solid foreign matter 15 captured by the screen 14 rotating forward and without bias, thereby enhancing the backwashing effect. That is, a part of the solid foreign matter 15 captured at the initial stage by the screen 14 rotating forward is captured by the centrifugal force generated at the captured position and is caught in the “eyes” of the screen 14 with a strong force, Although the next solid foreign matter 15 is sequentially found on the solid foreign matter 15 captured by the strong force or is captured in an overlapping state, the centrifugal force generated in the reverse direction during the reverse rotation causes the " The solid foreign matter 15 entrapped in the solid foreign matter 15 with a strong trapping force is urged away from the screen 14, and the solid foreign matter 15 is sequentially entangled with the solid foreign matter 15, and the solid foreign matter 15 being captured in an overlapping state is On the other hand, backwash can be performed by applying a force in a direction away from the screen 14.
[0020]
As described above, even if the screen 14 is configured to be able to rotate simultaneously with the pump main shaft 3 and the impeller 4, the conventional troublesome work of scraping and removing the solid foreign matter 15 and the draining station of the scraped and removed solid foreign matter 15 are performed. It is possible to eliminate clogging of the screen 14 automatically and to send the solid foreign matter 15 to the outside of the drainage pumping station 1 by eliminating the need for any external carrying out work or the like.
[0021]
In the pump with a built-in screen described with reference to FIG. 2, an annular solid foreign matter capturing screen 14 composed of a punching metal, a wire mesh, or a lattice-shaped frame is fixed horizontally. As shown in FIG. 2, the screen 14 composed of a plurality of band-shaped screens 14B, 14B,... Made of a punched metal, a wire mesh, or a lattice-shaped frame, that is, the plurality of band-shaped screens 14B, 14B,. When the pump impeller rotates in the direction of the solid line arrow R1, it has a cross-sectional structure that is orthogonal to the outlet velocity vector v2 of each of the blades 4A, 4A, and is inclined to the axis C (see FIG. 2) of the pump main shaft 3. The screen 14 may be structured so as to be arranged radially in the horizontal direction at equal intervals in the direction.
[0022]
With the screen 14 configured as described above, as shown in FIG. 4B, when the impeller 4 rotates as a water wheel runner in the direction of the dashed arrow R, the plurality of band-shaped screens 14B, 14B. As a result, a flow of power water (see broken line arrow F) is formed orthogonally, so that the effect of capturing the solid foreign matter 15 by the plurality of belt-shaped screens 14B, 14B... Can be enhanced, and as shown in FIG. When the impeller 4 rotates in the direction of the solid line arrow R1 as a pump impeller, a flow of discharge water (see the solid line arrow F1) orthogonal to the plurality of band-shaped screens 14B, 14B. The solid foreign matter 15 captured by the plurality of band screens 14B, 14B,... Is effectively separated from the band screens 14B, 14B,. Ri can be reliably eliminated.
[0023]
In the pump with a built-in screen described with reference to FIG. 3, the annular solid foreign matter capturing screen 14 composed of a punching metal, a wire mesh, or a lattice frame can be rotated simultaneously with the pump main shaft 3 and the impeller 4. However, as shown in FIG. 5, a punching metal, a wire mesh, or a grid-like frame having the same direction as the exit angle of each blade 4A, 4A,. The flat bar screen 14 may have a structure in which a plurality of band-shaped screens 14B, 14B,... Are arranged radially in the horizontal direction at equal intervals in the circumferential direction.
[0024]
With the screen 14 having such a structure, when the impeller 4 rotates in the direction of a dashed arrow R as a water wheel runner, the plurality of band-shaped screens 14B, 14B,... Which rotate in the same direction as the impeller 4 are opposed from above. Is generated (see broken line arrow F), the effect of capturing the solid foreign matter 15 by the plurality of band-shaped screens 14B, 14B... Can be enhanced, and the impeller 4 functions as a pump impeller by the solid line arrow R1. In the case of the reverse rotation in the direction, the flow of the discharge water (see the solid line arrow F1) that is opposed to the plurality of band-shaped screens 14B, 14B,. Therefore, the solid foreign matter 15 captured by the plurality of band screens 14B, 14B,... Is effectively separated from the band screens 14B, 14B,. Was backwashed, it is possible to reliably eliminate the clogging.
[0025]
As shown in FIG. 1, if the pump well 2 is provided with one pump with a built-in screen P, the system can be implemented as a system for intermittently pumping the solid foreign matter 15 as shown in FIG. In a configuration in which a plurality of (for example, two) screen-incorporated pumps P1 and P2 are installed in the pump well 2, the impellers 4 of the pumps P1 and P2 function as opposite to each other as a water turbine runner or a pump impeller. And a system for continuously feeding the solid foreign matter 15 under pressure.
[0026]
【The invention's effect】
As described above, since the pump with a built-in screen according to the present invention is configured, the following special effects can be obtained.
[0027]
According to the first aspect of the present invention, the clogging of the screen can be automatically performed by eliminating the troublesome work of scraping and removing solid foreign matter and the work of transporting the scraped and removed solid foreign matter out of the yard. And the solid foreign matter can be pumped out of the drainage plant.
[0028]
According to the second aspect of the present invention, clogging of the screen is automatically eliminated by a simple structure in which the screen for capturing solid foreign matter is fixed inside the pump casing, and the solid foreign matter is discharged outside the drainage plant. Can be pumped.
[0029]
According to the third aspect of the present invention, the solid foreign matter capturing performance and the captured solid foreign matter separating performance are enhanced, the clogging of the screen is automatically eliminated, and the solid foreign matter is pressure-fed to the outside of the drainage plant. can do.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram showing an embodiment of the present invention.
FIG. 2 is an enlarged sectional view showing an example of a main part.
FIG. 3 is an enlarged sectional view showing another example of a main part.
FIG. 4 is a development explanatory view showing a modification of the fixed screen.
FIG. 5 is a development explanatory view showing a modification of the rotary screen.
FIG. 6 is an overall configuration diagram showing another embodiment of the present invention.
FIG. 7 is a perspective view of a conventional example.
[Explanation of symbols]
3 Pump spindle (rotary axis)
4 impeller 5 pump casing 14 screen for capturing solid foreign matter 15 solid foreign matter

Claims (3)

An impeller shared by both the turbine runner and the pump impeller is simultaneously rotatably mounted on the rotating shaft and rotatably housed inside the pump casing. The impeller is introduced into the pump casing to rotate the impeller as a turbine runner. A screen-equipped pump, wherein a screen for capturing solid foreign matter is provided inside the pump casing at a position upstream of the impeller in a flow direction of the driving water to be driven. The pump with a built-in screen according to claim 1, wherein the screen for capturing the solid foreign matter is directly or indirectly fixed to a pump casing. The pump with a built-in screen according to claim 1, wherein the screen for capturing the solid foreign matter is configured to rotate simultaneously with the impeller.

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