JPS61278314A - Strainer - Google Patents

Abstract

PURPOSE:To improve filtration effect for liquid by affording breaking function to a cylindrical element. CONSTITUTION:A cylindrical element 5 is constructed of a double layered cylindrical body comprising an outside stationary element 5-1 and a movable element 5-2 which is slidably and revolvably fitted to the inside of the stationary element. When fluid is passed while revolving the movable element 5-2, long materials such as waste thread fed to the cylindrical element 5 are broken by the cutting action of the stationary element 5-1 and the movable element 5-2, and are passed through the element causing no trouble in the succeeding stage. Further, captured materials sticking to the cylindrical element 5 are stripped off and settled by a brush 6, thus causing no clogging of the cylindrical element 5. The captured materials accumulated in an accumulating chamber 12 are discharged appropriately from a discharging port 3. As the result, the performance for filtration of liquid is improved.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention is applicable to waste liquids used for automatic cleaning of domestic wastewater, crude oil, heavy oil, other oils, kerosene, gasoline, various chemical liquids, various gases, etc. This invention relates to strainers used for various fluids.

[Conventional technology]

A conventional strainer is a cylindrical casing with an inlet and an inlet interposed in a fluid flow path, and a porous cylindrical element is housed therein.

[Problem that the invention seeks to solve]

However, in such a conventional strainer, long objects such as lint that can pass through the cylindrical element pass through the strainer as they are, which poses a problem in that it becomes a hindrance to the next process.

In order to solve this conventional problem, the present invention provides a strainer in which the cylindrical element has a breaking function.

[Means for solving problems]

The present invention provides a strainer in which a porous cylindrical element is installed inside a casing connected to a fluid flow path, and is provided with a brush that comes into contact with the inner periphery of the cylindrical element, in which the cylindrical element is connected to an outer fixed element and a porous cylindrical element. This strainer is characterized in that it is formed of a double cylindrical body with a rotatable movable element slidably fitted into the element.

〔Example〕

Embodiments of the present invention will be described using the drawings.

The strainer arranged in the fluid flow path comprises a cylindrical element 5, a porous filter element, in a casing 4 with an inlet 1, an outlet 2 and an outlet 3 for trapped sediment, and the cylindrical A brush 6 is provided which comes into contact with the inner wall of the element 5.

The casing 4 is a vertical cylindrical body, and is provided with annular partition walls 7 and 8 protruding from the middle and high positions of the inner surface at a height interval, and the upper end of the cylindrical element 5, which is open at both ends, is connected to the partition wall 7. and its lower end is located at the inner edge of the partition wall 8, so that a cylindrical permeate chamber 9 is formed between the cylindrical element 5 and the casing 4 between the partition walls 7 and 8. A phase-opening outlet 2 is provided in the permeated water chamber 9 . The bottom plate 10 of the casing 4 is formed of an inclined plate, and a bearing part 11 of a rotating shaft 15 (described later) is fixed to the center of the inner surface, and a collar 26 concentric with the cylindrical element 5 is provided above the bearing part 11 to prevent rotation. It is provided via a member 27. The discharge port 3 is provided at the lowest position of the side wall of the casing 4, and the inside of the casing 4 below the partition wall 8 forms a deposition chamber 12. A driving part 14 for a movable element 5-2, which will be described later, is provided on the lid 13 of the casing 4, and the inlet 1 is opened in the side wall of the casing 4 between the lid 13 and the partition wall 7. There is.

The cylindrical element 5 is a double cylindrical body with an inner and outer structure, the outer cylindrical element is a fixed element 5-1 fixed to the partition wall 7.8, and the inner cylindrical element corresponds to the entire inner wall of the fixed element 5-1. A rotatable movable element 5-2 is in contact with and slidably fitted to the inner wall.

The movable element 5-2 is attached to a rotating shaft 15 concentric with the fixed element 5-1 via a boss 16, and the rotating shaft 15 is connected to the drive section 14 with its upper end protruding from the lid 13. The collar 26 is rotatably penetrated through the hollow part thereof, and its lower end is fitted into the bearing part 11.

The boss 16 is fixed to the rotating shaft 15 with a set screw 18, and the movable element 5-
It is connected to the upper end of 2.

The brush 6 is fixedly provided at a position where it comes into contact with the inner wall of the cylindrical element 5. That is, three flat brush mounting brackets 28 are attached to the collar 26 protruding from the bottom body 10, and 12 pieces are attached to each other.
The brushes 6 are fixed and protruded obliquely at intervals of 0", and the brushes 6 fixed to the substrate are attached to each brush mounting bracket 28 with bolts and nuts 20. The tips of the brushes are attached to the cylindrical element 5.
It is aligned to follow the curved surface of the inner wall.

The brush 6 has a length such that its upper end reaches the upper end of the element and its lower end reaches the lower end of the element, and the intersection angle θ with the collar axis is as small as possible for the fluid flow from the inlet 1 to the outlet 2. It is placed at an angle that provides only a certain amount of resistance.

In the figure, 21 is an electromagnetic ball valve, 22 is a gasket, 23 is a gasket, 24 is a gland, 25 is a leg, and 29 is a pressure outlet. Further, although an electric motor is used as the drive unit 14, a manual switching lever 30 and a manual operation shaft are attached so that the brush 6 can be rotated manually.

Therefore, when fluid is caused to flow through the movable element 5-2 while rotating, a long object such as lint that may pass through the cylindrical element 5 is removed by the canter action between the fixed element 5-1 and the movable element 5-2. The captured material adhering to the cylindrical element 5 is separated and settled by the brush 6.
The cylindrical element 5 does not become clogged. The trapped substances deposited in the deposition chamber 12 are discharged from the discharge port 3 at a proper time.

The rotating direction of the movable element 5-2 is the direction in which the captured object is guided downward by the brush 6 and the brush mounting bracket 2.

Moreover, the brush 6 and the brush mounting fittings 28 do not provide a large resistance to the fluid flow from the inlet 1 to the outlet 2, and do not impede smooth flow.

Furthermore, the brush 6 and the brush mounting bracket 2B peel off the trapped object and guide it downward by the rotation of the movable element 5-2, so the resistance from the fluid is less compared to raising and lowering a holding plate made of an axis orthogonal plate. (Trapped substances can be deposited with energy savings and with an extremely simple configuration.

The example shown in FIG. 2 is an example in which a conical cylinder element 51 is used instead of the straight cylinder element 5 of FIG. 1.

The fixed element 51-1 and the movable element 51-2 are conical cylinders whose diameter gradually decreases toward the bottom. 15 so as to be movable in the axial direction, that is, in the vertical direction, and the movable element 5
The gap between the fixed element 51-1 and the movable element 51-2 can be adjusted by vertical movement adjustment 1-2.

Further, the brush 6 is also provided so that the tip of the brush follows the curved surface of one inner wall of the cylindrical element 51, but if necessary, the brush 6 can be attached to the brush attachment fitting 28 so as to be movable in the radial direction.

It goes without saying that the same effect can be obtained by using a conical cylinder whose diameter gradually decreases upward.

Although the above description has been made using a vertical strainer, it can also be applied to a horizontal strainer. Further, the brush 6 may be one that brushes the entire circumferential surface of the inner wall of the cylindrical element 5 while the movable element 5-2 rotates, and may be one brush.
A plurality of them may be separated in the vertical direction.

〔Effect of the invention〕

According to the present invention, it is possible to provide a strainer with an extremely simple structure without allowing elongated objects to flow through as they are, and because the strainer has a breaking function that helps prevent clogging, it is possible to improve fluid filtration processing.

BRIEF DESCRIPTION OF THE DRAWINGS FIGS. 1 and 2 are longitudinal sectional views of different embodiments. ■...Inlet, 2...Outlet, 3...Outlet, 4
...Casing, 5,51...Cylindrical element, 5
-1゜51-1... Fixed element, 5-2.51-
2...Movable element, 6...Brush, 7.8...
・Partition wall, 9... Permeated water chamber, 10... Bottom plate, 11...
・Bearing part, 12... Deposition chamber, 13... Lid body, 14.
... Drive part 1.15 ... Rotating shaft, 16 ... Boss, 1
9... Rib, 26... Collar, 27... Rotating member, 28... Brush mounting bracket.

Claims (1)

[Claims] 1. A strainer including a porous cylindrical element inside a casing connected to a fluid flow path and a brush that comes into contact with the inner periphery of the cylindrical element, wherein the cylindrical element is connected to an outer fixed element. A strainer characterized in that it is formed of a double cylindrical body with a rotatable movable element slidably fitted into the fixed element. 2. The strainer according to claim 1, wherein the cylindrical element is a conical cylinder. 3. The strainer according to claim 1 or 2, wherein the movable element is attached to a rotating shaft via a rib. 4. The strainer according to any one of claims 1 to 3, wherein the brush is fixed via a fitting to a collar provided on the casing via a rotation preventing member. 5. The strainer according to claim 4, wherein the brush is attached to the collar at an angle so as to guide the caught object downward.