SE515240C2 - Filter device for separating solids from flowing fluids - Google Patents

Abstract

When pumping liquids or gases, it is often necessary to provide the inlet to the pumping system with some kind of filter device to separate solids. Then, these solids have to be cleaned away from the filter device in some way, which can be a time-consuming and labour-demanding operation. The invention provides a filter device comprising a hollow cylindrical body characterized in that it is rotatable around an axis by a suction force applied in the axial direction by the action of an inner turbine structure with capacity to capture solids from a liquid or a gas, which turbine structure is made of parts movable in relation to each other in accordance with the force applied. When the suction force applied is removed, the filter device according to the invention has the ability to release captured solids.

Description

15 20 25 30 5115- m) 2 Brief description of the drawings Figure 1 shows schematically, from the side, an embodiment of the invention according to Example 1, in idle mode.

Figure 2 shows schematically, from below, an embodiment of the invention according to Example 1, in idle mode.

Figure 3 shows schematically, from the side, an embodiment of the invention according to Example 1, in working position.

Figure 4 shows schematically, from the side, an embodiment of the invention according to Example 3. For the sake of clarity, only the additional ring is presented in detail.

Figure 5 shows schematically, from below, the additive ring according to Example 3.

DETAILED DESCRIPTION OF THE INVENTION Figures 1 to 5 show a preferred filter device according to the invention which comprises a hollow cylinder body 1 whose wall in its lower part is in the form of strips 2, which extend in the extension of the cylinder body and are arranged helically so as to overlap each other and forms a funnel-like shape, the strips being held in place with a surface tightening 3, and the cylinder body being rotatable, by a suction force applied in the axial direction at an outlet 4 in the upper end of the cylinder body, by the turbine action which occurs when water flows in through an inlet 5 in the lower end of the cylinder body past the overlapping strips, and wherein the overlap of the strips is movable between at least two positions.

It should be noted that the mentioned overlapping strips 2 are not necessarily completely close to each other. When the above-mentioned suction force is applied, water can thus flow into the cylinder body 1 through the spaces between these belts 2. Accordingly, the said inlet 5 refers to the hole shown in Figure 2 from below and / or the spaces between the overlapping strips.

Essential for the invention is thus partly the turbine function and partly the iability in the overlap, ie. the design with strips that are movable between at least two positions in accordance with prevailing pressure conditions. This design provides the specific benefits of the invention.

The invention is based on the principle that water is pumped in the axial direction through a hollow cylinder body which is caused by the flow to rotate about its axis in 515 240 f- ... now 3 axis, due to the fact that the cylinder body is partly in the form of strips which overlap each other and form a turbine-like structure. During operation, the current inside the cylinder body can be described as an upwardly directed vortex, the overlapping strips acting as a kind of turbine. Solids then have a relatively long transport distance consisting of a number of revolutions through the cylinder body during which corresponding time they have the opportunity to get stuck in the grooves formed by the overlapping strips.

What gives the surprising effect of the winding is that it takes advantage of the fact that the strips settle to different degrees of overlap when different pressure conditions prevail in the cylinder body. More specifically, the internal volume is smaller when a suction pressure is applied by connecting the outlet of the alter device to a pump. When the pump is disconnected, the flow of water and the rotation of the cylinder body ceases, at the same time as the inner volume increases as the strips move outwards and sideways in relation to each other. Solids that are stuck in the gutters then loosen, partly due to the fact that the strips suddenly move sideways so that the walls of the gutters are displaced, that the strips suddenly move outwards, and that the flow through the cylinder body is interrupted. The solids fall down due to gravity after they have come loose from the gutters, and preferably the cylinder body is located vertically so that they fall out through the inlet of the filter device, after which they can be recovered or not, as desired. In this description, the terms "upper" and "lower" part and end, etc., respectively, with respect to the cylinder body, are used to denote preferred positions in the exercise of the invention when it is desired to allow trapped solids to settle out of themselves in sleep mode. However, the rotation and other functions of the alter device operate regardless of position, which is obvious to those skilled in the art.

In principle, it is conceivable that a funnel-like or cylindrical construction with an inexpressible internal turbine structure provides a desired filter effect. However, the remarkable advantages of the invention only become apparent if the construction with mutually movable strips is used, in that the movement of the strips between the two positions is relatively violent when a connected pump is switched off. Purification then takes place with a considerable efficiency, which is significantly higher than if no such movement were to take place between two positions.

Furthermore, in the present system no flow is used in the opposite direction but only interruption of flow, which in many cases is advantageous since one does not need to install any means to induce flow in the opposite direction compared to the direction of work. There is also no need for any mechanical means which would be specifically intended for cleaning.

In practice, it is convenient to utilize the heater in such a way that in order to clean an alter device according to the heater, the pump is simply switched off. For a few seconds, the cylinder body and any trapped substances fall out of the filter device and down to the bottom. Then the pump can be switched on again. The time the pump is switched off can be very short, for example less than 10 seconds, and should suitably be adjusted in relation to the solids, so that substantially all the trapped substances have time to settle out of the filter device.

For certain applications it may be appropriate to provide the pump system with a time control, for example a timer, so that the pump is switched off at certain times, whereby the filter device "cleans itself".

The various components of the filter device according to the invention are commented on in more detail below.

The most important characteristic of the cylinder body is that it is rotationally symmetrical and hollow, so that a flow can take place through the cylinder body during rotation. In the embodiment shown, the body has a drop-like shape, tapered upwards, but the taper is not critical. However, it can be favorable that the surface which abuts the connection at the top during rotation (in working position) is neither too large, which means high friction, nor too small, which can lead to a difficult-to-control oscillation of the cylinder body. The cylinder body may be fitted with a fl end which in rest position rests on the suspension collar of the connection (see below).

The strips should be of a size suitable for the intended use.

The rotation, alteration and cleaning depend on the design, arrangement and material of the strips. The part of the strips that is below the constriction acts as a propeller that counteracts the main rotation of the cylinder body and increases the turbulence around the inlet. The volume of the cylinder body in working position, ie. rotating position, is affected, among other things, by the nature of the material, by the suction force and by the centrifugal force which arises when the cylinder body rotates. Thus, the suction force will be balanced by the centrifugal force, whereby the internal volume is generally smaller in the working position than in the rest position. The constriction may consist of a ring of a stable material, for example hard plastic, and is responsible for the function of maintaining the main position of the straps. The ring can be applied around the strips in such a way that an inlet of suitable size is provided.

At its upper end, the filter device is suitably provided with a connecting attachment 6, which has a surface against which the outlet end of the cylinder body can rotate, and a suspension collar 7 for holding the cylinder body in place near the pump hose in rest position (see Figures 1 and 3). The cylinder body should be kept so close to the suction hose that it is sufficient to switch on the pump for the cylinder body to be sucked into place in working position.

The hollow cylinder body can in certain applications preferably be supplemented with an outer attachment 8 with outward and upwardly directed wings 9, which acts as a propeller which follows the rotation of the cylinder body and causes a flow of water upwards, along the cylinder body. This may be appropriate to prevent e.g. elongated green algae from getting stuck on and wrapped around the cylinder body. This function is achieved partly by the upward flow, partly by the wings breaking fragile substances such as green algae.

Usability of the invention The present invention can be applied for many different purposes, which is obvious to the person skilled in the art. Examples include pumping water that contains plenty of sludge.

The invention is particularly useful when you want to ensure the operation of the pump system with minimal maintenance and at low costs. This may, for example, apply to pumping water between ponds in a garden. One can further imagine a submersible pump in a well, whereby it is advantageous not to have to pick up the filter or send someone down to perform the maintenance.

In such applications, one is not at all interested in taking advantage of trapped substances. However, it is just as well possible to set up collecting means which take advantage of the substances which fall out of the filter device when the pump is in the switched-off position.

The present invention has here mainly been described in connection with pumping water. However, no water-unique properties are used, so the filter according to the invention works just as well with other liquids.

As can be seen from Example 4 below, the same principle also works for gases, 51 51 240 6 and the invention consequently also comprises filtering devices for genuine gas systems.

The invention is illustrated below with the aid of exemplary embodiments.

Example 1 An alter device was made from a standard 50 cl ash, made of so-called PET plastic and with a height of about 23 cm and a diameter of about 6 cm at the non-conical part, which was cut so that the bottom was removed and the non-conical part was cut in the form of longitudinal approximately 12 cm long, 5 mm wide and approximately 0.5 mm thick strips. The strips were arranged in a spiral shape, so that they overlapped each other and were held together by a rubber band, possibly supplemented with a ring made of PET plastic. The constriction was about 3 cm above the lower end and the opening there was about 2 mm in diameter at rest. At the top, the ordningenlter device consisted of a detachable connection attachment, consisting of the neck from a similar samt ash and about 2 cm of the conical part of this fl ash, fitted at the bottom with a non-tight inner collar that holds the outlet end of the cylinder body in place in the connection attachment.

This filter device was connected to a pump system for garden ponds (pump of the Utfors brand with a capacity of 30 minute liters) and was completely immersed in a garden pond in Alunda, Uppland, during the summer. The pumping was operated with an output of 900 W for 4 months, with the cylinder body rotating at about 200 revolutions per minute. The filter device was cleaned by switching off the pump once a day. In general, no further purification was needed and the pumping was judged to be completely satisfactory. However, during periods of abundant presence of green algae, which had a length of up to half a meter, these algae tended to stick to and wrap around the cylinder body of the ash, so the measure described in Example 3 was taken.

Example 2 A similar somlter device as the one in Example 1 was manufactured with the same dimensions, except that this time the walls of the cylinder ash cylinder body were approximately twice as thick and consequently less fl visible. The filter device was tested in a similar way to the filter device in Example 1, but not for the same length of time. It could be observed that the difference in inner volume and overlap between 10 'S15. 240 7 working mode and sleep mode were not as large as with the filter device according to Example 1. Filtration was judged to be satisfactory even in this case.

Example 3 An additive consisting of a wreath provided with upward and outwardly directed wings does not replace the constriction ring in the filter device according to Example 2.

Comparisons were made with the same alter device in operation without the auxiliary ring, whereby the auxiliary ring resulted in a reduced tendency for the accumulation of long green algae around the cylinder body.

Example 4 An ordinary household vacuum cleaner (Electrolux Excellio Z5040) was connected to each of the filter devices according to Examples 1 and 2. Both rotated, except at the lowest power mode, with an estimated up to 300 revolutions per minute, the internal volume being smaller in rotation mode than in idle mode. This example shows that the principle of invention also works for gases.

Claims (7)

"rsis 240 8 Patent Claims Filter device for separating solids from flowing ider uides, comprising a hollow cylinder body (1), the upper end of which is provided with a connection attachment (6) for connection to a pump system, characterized in that the cylinder body (1) is rotatable about its shaft in the connecting attachment (6) and that the lower part of the wall of the cylinder body (1) is in the form of longitudinal strips (2), which are arranged spirally overlapping and held in place by means of a lacing (3) at the lower end of the cylinder body (1), so that during pumping a spiral fl flow is created which causes the cylinder body (1) to rotate, whereby solids are trapped between the overlaps of the strips (2). Filter device according to claim 1, characterized in that an outer attachment (8) with outward and upwardly directed wings (9) is arranged at the lower end of the cylinder body (1), which outer attachment (8) accompanies the rotation of the cylinder body (1). Filter device according to Claim 1 or 2, characterized in that the constriction (3) is movable along the cylinder body (1) and in that the strips (2) are visible, whereby the degree of overlap of the strips (2) varies in accordance with the result of the pumping. suction pressure. Filter device according to Claim 3, characterized in that the strips (2) move outwards and laterally relative to one another when a suction pressure previously applied by the pumping ceases, whereby solids trapped between the strips (2) are released. Filter device according to one of the preceding claims, characterized in that approximately half of the length of the cylinder body (1) is in the form of strips (2) - 5 1 5 - 2 4 0 “I Process for separating solids from a gas or liquid, characterized in that an alter device according to any one of the preceding claims is used. Method for cleaning an alter device according to claim 4, characterized in that the pumping is switched off, whereby the suction pressure ceases, for a sufficiently long time that solids trapped between the strips (2) are released and fall out of the alter device.