JPH05261209A - Filter with rotary washing manifold - Google Patents

Abstract

PURPOSE: To eliminate generation of clogging and to get free of maintenance with a simple constitution by converging a sidewall of a main body in a direction directing from an inlet to an outlet toward a screen and forming an annular collecting space having a water injection nozzle at an end of the screen. CONSTITUTION: The sidewall 16 of the main body 11 has inclination toward the sidewall 25 of the screen 12 and converges in a direction directing from the inlet 15A to the outlet 15B of the main body 11. The collecting space 28 is formed at the end of the sidewall 25 of the same side as the outlet 15B of the main body 11. The collecting space 28 can receive garbage which is carried accompanying a flow to be treated and is connected to a suction pipe 30. The sidewall 16 of the main body 11 is of a truncated cone shape and the sidewall 25 of the screen 12 is cylindrical. The collecting space 28 extends to a radial direction directing to an axial line A of the device from the screen 12 and the nozzle 34 is disposed inside the space with inclination. The nozzle 34 injects water and induces a swirling flow around the axial line A in the collecting space 28.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention broadly relates to a filter having the following structure, that is, a main body having an inlet and an outlet, at least a side wall of which has a shape of a rotating body, and coaxially arranged in the main body. A fixed screen, at least a side wall of which is a filter wall disposed between the inlet and the outlet, and has a shape of a rotating body, and which extends along a generatrix of the screen and is rotatably attached to the screen. A filter including at least one cleaning manifold.

[0002]

BACKGROUND OF THE INVENTION Filters of this type are axially inserted into a pipe under pressure to remove small and medium size impurities, debris and other debris carried by the flow in the pipe. Is designed. One problem for designers of this type of filter is the need to remove dust trapped by the filter wall of the screen to prevent it from clogging the screen. If no special structural measures are taken, the water jet from the wash lamp only temporarily lifts the dust from the filter wall until it returns to the filter wall.

In some known designs, the filter wall of the screen is generally cylindrical, and the body is periodically flushed to eliminate dirt deposits on the filter wall. In another known design, the filter wall of the screen is generally frusto-conical and the suction pipe, which opens axially near the small diameter end of the filter wall, is flushed. As with the previous designs, this flushing is also of limited effectiveness, with only some of the trapped dust reaching the pipe provided for dust suction.

[0004]

It is an object of the present invention to provide a filter which has the advantage of being able to solve these problems, as well as other advantages.

[0005]

According to the present invention, there is provided a main body having an inlet and an outlet, at least a side wall of which has a shape of a rotating body, and coaxially arranged in the main body, wherein at least the side wall has the inlet and the inlet. A fixed wall having a shape of a rotor and a filter wall disposed between the outlet and at least one cleaning manifold extending along a generatrix of the screen and rotatably attached to the screen; In the filter, at least a part of the side wall of the main body is inclined as a whole with respect to the side wall of the screen, and converges toward the screen in the direction from the inlet to the outlet of the main body. At the end of the side wall of the screen on the same side as the outlet of the main body, an annular collection space for receiving dust carried by the flow to be treated is provided. Collection space, the filter characterized in that it is connected to a suction pipe is provided.

For simplicity, for example, the side walls of the body are generally frustoconical and the side walls of the screen are generally cylindrical. Since the side wall of the main body is arranged to be inclined with respect to the side wall of the screen, the velocity vector of the inflow stream to be treated in the annular space is inclined with respect to the side wall of the screen. Thus, this velocity vector has a velocity component parallel to the axis of the device (which is the component that disperses the flow over the entire side wall of the screen and carries the debris in the flow towards the collection space), And a lateral velocity component that directs the flow through the side walls of the screen. That is, because the side walls of the body are arranged in such an inclined manner, the flow to be treated is optimally guided and distributed along the entire side wall of the screen and passes through the side wall.

The flow cross section is preferably designed so that the flow vector coefficient of the inflow to be treated remains substantially constant along the entire side wall of the screen. Only this velocity vector causes most of the captured dust to be systematically transported towards the collection space at the end of the side wall of the screen. Residual debris accumulated on the side walls of the screen is removed from the side walls of the screen by the wash water and returned to the suspension of the inflow stream each time the cleaning manifold is rotated, and then the debris is again deposited on the side walls of the screen. It is trapped a little further downstream until it is deposited on. Therefore,
The dust eventually reaches the collection space provided at the end of the side wall of the screen. When the dust reaches the collection space,
Sufficient suction can be achieved by continuous discharge at low flow rate and / or periodic flushing at high flow rate.

In order to increase the efficiency of this method, it is preferable to provide at least one nozzle, which is inclined and pouring into the collecting space, to induce a swirling flow in the collecting space about the axis of the device. Therefore, the dust present in the collection space does not agglomerate and settle in any part of it,
Exercised systematically. At least one vane is secured to the wash manifold, at least a portion of which is inclined with respect to the axis of the device to rotate the wash manifold.

Rotation of the wash manifold is usually provided by jets that obliquely eject from the wash manifold itself. In addition to the fact that such jets consume energy, the rotational torque that they can generate is relatively weak and the control of their rotational speed is usually difficult. The vanes are sufficient on their own or they can be used in combination with jets. Also, the vanes can utilize the kinetic energy of the already processed outflow to obtain the required rotation. The attachment angle of the vane to the flow velocity vector and the surface area of the vane allow effective control of the resulting rotational speed. In addition, the vane has an advantage that it can exert maximum torque at the time of starting.

In summary, the filter of the present invention is a compact and superior backwash filter that uses a wash manifold, and the jets from the wash manifold are effectively re-injected into the stream to be treated. Therefore, no suction device for cleaning is required, which makes the filter relatively simple and economical to construct. Also, the filter of the present invention does not require any motor to drive the cleaning manifold and is not subject to any wear. Because the wash manifold is located on the same side as the treated effluent stream, it is not clogged and therefore requires little maintenance.

[0011]

The features and advantages of the present invention will become apparent from the following detailed description, taken in conjunction with the accompanying drawings. As shown, a filter 10 of the present invention designed to treat any type of stream and any type of water stream.
Has, for example, a stationary body 11, a screen 12 in the body 11, and at least one cleaning manifold 13 rotatably mounted in the screen 12. These configurations themselves are known.

The main body 11 has an inlet 15A and an outlet 15B, and at least the side wall 16 of the main body 11 has the shape of a rotating body. The axis A of this rotor is shown in phantom in FIG. 1 and its position is shown in FIG. The filter 10 is designed so that it can be inserted axially between two sections 17A, 17B of the pipe, which are shown schematically in phantom in FIG. 1 under pressure. The inlet 15A and the outlet 15B of the filter 10 have an axis A of the side wall 16.
Are concentrically arranged in the axial direction and are surrounded by respective flanges 18A, 18B transverse to the axis A so that they can be connected appropriately.

At the end of the body 11 on the same side as the inlet 15A, the body 11 has a toroidal back 20, which has a side wall 16 and a lateral flange 18A.
Is connected to a section of pipe 21 terminating at. The flange 18B on the same side as the outlet 15B has the side wall 16
Is directly connected to the end portion of the side wall 16 so as to abut the counter flange 22 attached to the outside of the.

A fixed screen 1 is provided inside the main body 11.
2 are arranged concentrically and form an annular space 24 together with the side wall 16 of the main body 11. The side wall 25 of the screen 12 is a filter wall inserted between the inlet 15A and the outlet 15B of the main body 11, and at least this side wall 25 has the shape of a rotating body around the axis A. At the end of the body 11 on the same side as the inlet 15A, the screen 12 is closed by a back 26, which is connected to a cap 27 which is shaped as an excellent guide for treating the inflow. . At the end of the main body 11 on the same side as the outlet 15B, the screen 12 is open. Side wall 25
Only the filter wall.

The filter wall itself is known and not relevant to the present invention. Thus, although need not be described in detail here, the filter walls are made up of mutually spaced bars parallel to the axis A, which bars are spaced apart from each other forming a grid with these bars. They are joined together in the lateral direction by an annular cross member separated by.

At least a part of the side wall 16 of the main body 11 is inclined with respect to the side wall 25 of the screen 12, and converges in the direction from the inlet 15A to the outlet 15B of the main body 11. A collection space 28 is provided at the end of the side wall 25 of the screen 12 on the same side as the outlet 15B of the main body 11. The collecting space 28 can receive dust carried along with the flow to be treated and is connected to a suction pipe 30.

The side wall 16 of the body 11 is generally frustoconical and the side wall 25 of the screen 12 is generally cylindrical. The collection space 28 extends from the screen 12 to the axis A
Extending radially toward. The collection space 28 includes the side wall 16 and the flange 18B of the main body 11, and the flange 18
Similar to B, it is composed of an annular flange 31 fixed to the end of the screen 12 and a cylindrical member 33 connecting the annular flange 31 to the flange 18B in the direction transverse to the axis A. Collection space 2 composed of these
In 0A, at least one nozzle 34 is inclined and poured. The nozzle 34 jets water to cause rotation about axis A.

In this embodiment, three nozzles 34 are provided around the axis A at equal angular intervals.
All three nozzles 34 are arranged substantially tangential to a common perimeter of the side wall 16 of the body 11. The suction pipe 30 faces the direction opposite to the direction of the nozzle 34 and is arranged to be inclined with respect to the collection space 28. The suction pipe 30 is arranged tangentially to the side wall 16 of the main body 11.

As shown schematically in phantom in FIG. 2, the suction pipe 30 is connected to a pipe 37 (which connects the suction pipe 30 to the drain or drain) via control of a valve 36. ing. In this example, 2
Two identical cleaning manifolds 13 are arranged diametrically opposite one another. Each cleaning manifold 13 extends along a generatrix of the side wall 25 at a position separated from the side wall 25 of the screen 12 by a predetermined distance. Cleaning manifold 13
Support nozzles 38 spaced apart from each other. These nozzles 38 are flat and are arranged parallel to the generatrices along which they extend.

The cleaning manifold 13 extends from a common hub 40 like the arms of a candelabrum.
The cleaning manifold 13 has a hollow shaft 4 for supplying water to them.
It is mounted by a hub 40 so that it can rotate on 1. The cleaning manifold 13 is connected to the hub 40 by a cross member, that is, a stay 42. The hollow shaft 41 has a back portion 26 of the screen 12 that supports the hollow shaft 41.
Through in the axial direction. A chamber 43 is formed in the hollow shaft 41, and the chamber 43 is connected to a discharge side of a pump 45 via a pipe 44.
The suction side of the pump 45 is connected to the inside of the screen 12 via a pipe 46. The pump 45 supplies cleaning water to the cleaning manifold 13 via the rotary seal 48.

The nozzle 34 is also connected to the discharge side of the pump 45 via a pipe 49 (schematically indicated by a single line in FIG. 1). To rotate the wash manifolds 13, at least one vane 50 is fixed to each wash manifold 13, at least a portion of which is inclined with respect to the axis A of the device.

In this embodiment, two vanes 50 are provided, one for each wash manifold 13. Each vane 50 is located near the end of the wash manifold 13,
It is supported by radial arms 51 that are fixed to each wash manifold 13. The arm 51 extends radially from the wash manifold 13 to the tube section 52. The tubing section 52 is centered on the axis A of the device so that the hub 40 supporting the wash manifold 13 can be accessed to install and remove the wash manifold 13 as needed.

The arm 51 is a flange that is long in the axial direction. The vane 50 supported by the arm 51 is an arm 51
And each vane 50 is simply formed by an angled lip along one radial edge of arm 51. In this embodiment, the vane 50 has an arm 51.
Although it is formed on the rear edge portion, it is the same when it is formed on the front edge portion. The vanes 50 face the same direction when viewed in the circumferential direction.

The flow to be treated flows into the body 11 from the inlet 15A under pressure, as shown diagrammatically by the arrow F _A in FIG. The fluid then flows into the annular space 24 between the body 11 and the screen 12. The velocity vector V of the fluid in the annular space 24 is shown diagrammatically in FIG. The side wall 16 of the main body 11 is the screen 12
Is inclined with respect to the side wall 25 of
Is inclined with respect to the side wall 25 of the screen 12. Therefore, the velocity vector V is a component V parallel to the axis A.
₁ and a component V ₂ transverse to the axis A. Due to component V ₁ , the incoming flow is screen 12
Along the side wall 25 of the. Also, due to the component V ₂ , the flow passes through the side wall 25 of the screen 12. Debris 25 associated with the incoming stream to be treated is captured by screen 12 as shown diagrammatically in FIG.

Each time the cleaning manifold 13 passes through the side wall 25 of the screen 12, as shown schematically in FIG.
The jet from the nozzle 38 causes dust to be temporarily separated from the side wall 25. The dust returned to the inflow flow is shown in Figure 1.
Is gradually captured by the side wall 25 of the screen 12 towards the collection space 28 in successive steps, schematically indicated by the arrow F ₂ . The jets from the nozzle 34 cause the dust in the collection space 28 to be continuously swirled about the axis A, as shown diagrammatically by the arrow F ₃ in FIG. Therefore, in order to suck out the dust through the pipe 30, it is sufficient to periodically open the valve 36. This flushing can be controlled by a clock, for example.

After passing the side wall 25 of the screen 12,
The treated stream exits body 11 through outlet 15B of body 11 as shown schematically in FIG. 1 by arrow F _B. Thrust acting axially on the vanes 50 by the treated effluent flow causes the cleaning manifold 13 to
The vane 50, as shown diagrammatically by the arrow F ₄ in FIG.
Is rotated in the direction opposite to the direction in which the.

Of course, the present invention is not limited to the above embodiment, but includes all modifications of the embodiment. More specifically, the filter walls of the screen can be different than those specifically described in the above embodiments. Although the filter is shown to be used horizontally, it is not always necessary to use it horizontally.

[Brief description of drawings]

1 is an axial cross-sectional view of a filter according to the present invention.

FIG. 2 is a cross-sectional view taken along the line II-II of FIG.

FIG. 3 is a partial cross-sectional view showing a vane taken along the line III-III in FIG. 1 and parallel to the axis of the filter.

4 is a partial cross-sectional view showing a vane taken along the line IV-IV in FIG. 1 and parallel to the axis of the filter.

[Explanation of symbols]

 10 Filter 11 Body 12 Screen 13 Cleaning Manifold 15A Body Inlet 15B Body Outlet 16 Body Side Wall 18A Flange 18B Flange 20 Body Back 21 Pipe 22 Counter Flange 24 Annular Space 25 Screen Side Wall 26 Screen Back 27 Cap 28 Collection Space 30 Suction Pipe 33 Cylindrical Member 34 Nozzle 36 Valve 37 Pipe 38 Nozzle 40 Hub 42 Stay 43 Chamber 44 Pipe 45 Pump 46 Pipe 48 Rotating Seal 49 Pipe 50 Vane 51 Arm 52 Pipe Section

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Office reference number FI technical display location B01D 29/25 29/37 46/24 C 7059-4D

Claims (10)

[Claims] 1. A body having an inlet and an outlet, at least a side wall of which has a shape of a rotating body, and a filter wall which is coaxially arranged in the body and at least a side wall of which is arranged between the inlet and the outlet. A fixed screen having the shape of a rotator, and at least one extending along the generatrix of the screen and rotatably attached to the screen.
A cleaning manifold, wherein the length of at least a portion of the side wall of the body is generally inclined with respect to the side wall of the screen, and the screen is directed from the inlet to the outlet of the body. The end of the side wall of the screen on the same side as the outlet of the main body is provided with an annular collecting space for receiving the dust carried by the flow to be treated. Is a filter connected to a suction pipe. 2. A filter according to claim 1, characterized in that at least one nozzle is poured into the collecting space to induce a swirl in the collecting space about the axis of the filter. 3. The suction pipe is mounted so as to be inclined with respect to the collection space, facing in the direction opposite to the one or more nozzles poured into the collection space. The filter according to claim 2. 4. The filter according to claim 1, wherein the collecting space extends from the screen in a radial direction toward an axis of the filter. 5. The wash manifold has at least one vane secured thereto, at least a portion of the vane inclined with respect to the axis of the filter is associated with each wash manifold to rotate the wash manifold. The filter according to claim 1, wherein the filter is a filter. 6. The filter of claim 5, wherein the vanes are located near the ends of the wash manifold and are supported by radial arms fixed to the wash manifold. 7. The arm supporting the vane is provided with an axially long flange, and the vane is an integral piece with the arm, and forms an inclined lip along one radial edge of the arm. The filter according to claim 6, wherein: 8. Two wash manifolds are provided diametrically opposed to each other, each arm supporting a respective vane having a center on the filter axis from the respective wash manifold and a wash manifold. 7. Radial extension to a common tube section allowing access to a supporting hub.
Or the filter according to 7. 9. The filter according to claim 1, wherein the side wall of the main body has a truncated cone shape as a whole, and the side wall of the screen has a cylindrical shape as a whole. 10. The filter according to claim 1, wherein the inlet and the outlet of the main body are arranged in the axial direction.