JPS6034883B2 - filter element - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a filter element, particularly one which is capable of filtering even the finest filter particles.

For example, a typical filter element in an oil filter is formed by folding a sheet-like filter material into a bellows shape or a pleat shape.

By the way, in order for this kind of filter element to be able to reliably filter even minute particles, the area of the filter element should be made as large as possible, and the distance through which the filter element passes, that is, the length of the filter element, should be made as large as possible. It needs to be as long as possible. To this end, what has generally been done in the past is to first expand the overlapping area by folding a sheet-like filter material into a bellows or pleat shape.
The next step was to connect multiple stages of such bellows-shaped or pleated filter elements in series to ensure a sufficient seal length. However, in such a conventional configuration, the shape of the element itself becomes large, and
This has the disadvantage that the structure of the casing that accommodates multiple stages of elements becomes complicated. Furthermore, for example, when an oil filter element in a lubrication system of an automobile engine becomes clogged, it is common practice to replace the element together with the casing. In other words, most of these types of filter elements are excreted or thrown away. Therefore, it must be made as simple and low-cost as possible. However, even with the conventional configuration as described above, it has been difficult to create a low-cost configuration that can be easily disposable. This invention was made in view of the above-mentioned conventional background, and its purpose is to significantly increase the efficiency of using filter materials.
As a result, it is an object of the present invention to provide a filter element which can be constructed in a small size and at low cost, and which can reliably filter out even minute filter particles.

In order to achieve the above object, the present invention has a spiral shape formed by winding a relatively thick sheet-like filter material while sandwiching a pongee-width base material made of the same kind of material as the filter material on one side of the filter material. and a casing that accommodates the spiral body and isolates one end surface side of the spiral body and the pond end surface side from each other and guides the fluid in and out, respectively. It is characterized in that the overlapping body is introduced from the end face of the baser material, and the overlapping body is led out from the end of the spiral body on the side where the baser material is located.

Hereinafter, preferred embodiments of the present invention will be described based on the drawings.

FIG. 1 shows an embodiment of a filter element according to the invention.

The filter element shown in the figure is configured as an oil filter element used in the lubrication system of an automobile engine. This filter element includes a spiral body 16 formed by winding a sheet-like filter material 10,
A casing 22 is provided which isolates one end surface side 18 of the spiral body 16 and the pond end surface side 20 from each other and guides oil inlets and outlets 24 and 261 respectively. The spiral body 16 is
As shown in FIG. 2, a sheet-like filter material 10 is wound around one side thereof with a pongee-width spacer material 12 made of the same material as the filter material 10 sandwiched therebetween. A spiral space 14 is formed in the spiral body 16 along the sheet-like filter material 10. This spiral body 16 is housed in a casing 22 using an end plate 15 for receiving one end thereof, an adhesive forming a seat portion, a gasket 17, a spring, and the like. The end of the spiral body 16 on the side where the baser material 12 is located communicates with the oil outlet 26, and the spiral space 14 side of the spiral body 16 communicates with the oil inlet 26.
The lotus is suitable. A check valve 28 is interposed in the oil inlet 24 to prevent backflow of oil. Now, in the filter element configured as described above, the oil introduced from the oil inlet 24 enters the spiral space 14 of the spiral body 16 as shown by the arrow in the figure, and then flows on both sides of the filter material 10. It penetrates into the filter material 10 and the surfacer material 12 from the end surface of the surface and the surfacer material 12, moves upward along the surface direction inside these members 10, 12, and forms the spiral body 16. The base material 12 comes out from the end on the side where the base material 12 is located. Then, as shown by the arrow in the figure, it passes through the central tubular portion and is led out to the outlet 26. At this time, the fine filter particles contained in the oil are separated while the oil passes through the inside of the filter material 10 in the surface direction of the material 10. What should be noted here is that the oil introduced from the oil inlet 24 enters the spiral space 14 of the spiral body 16 and then enters the inside of the filter material 10 from both sides of the sheet-like filter material 10. and the inside of the filter material 10 is exposed to the material 1.
This means that it passes in the direction of the 0 plane. This results in
First, both sides of the filter material 10 substantially function as an effective cross-section area, and as a result, an effective cross-section area that is approximately twice as large as that of a filter element that uses only one side of the substructure is secured. It becomes like this. Next, the oil moves inside the sheet-like filter material 10 in the surface direction of the material 10 and is filtered out, so although the amount of filter material 10 used is small, it actually takes a long time. This will ensure that even the smallest particles will be rejected. Since the sheet-like filter material 10 is spirally wound together with the baser material 12,
Its shape can also be easily miniaturized. Furthermore, since the casing 22 can be constructed so as to isolate one end surface side and the other end surface side of the spiral body 16, its structure can be made relatively simple. Cost reduction can also be easily achieved. Furthermore, the filter material 10 is used as the base material 12.
As a result of using the same type of material, the baser material 12 can also function as a filtering body, thereby making it possible to further increase the filtering efficiency of the filter element.

Here, the baser material 12 is required to be wound in close contact with the spirally wound filter material 10. For example, if the baser material 12 is made of hot melt adhesive, , the adhesion between the baser material 12 and the filter material 10 is very good.
As described above, the filter element according to the present invention is
The utilization efficiency of the filter material is very high, and as a result, it is possible to create a small filter element with high pass-through efficiency, and it is also possible to reliably pass even minute particles, and the casing has a spiral shape. It is sufficient to separate one end surface side and the other end surface side and guide them respectively to the entrance and exit of the passer. Therefore, the structure can be simplified, and this can also significantly reduce costs. .

[BRIEF DESCRIPTION OF THE DRAWINGS] FIG. 1 is a sectional view showing an embodiment of the filter element according to the present invention, and FIG. 2 is a perspective view showing an example of the method for forming the spiral body used in FIG. 1. It is. 10... Sheet-like filter material, 12...
... Subaser material, 14 ... Spiral space,
16... Spiral body, 18... One end surface side of the spiral body, 20... Other end surface side of the spiral body, 2
2...Casing, 24...Oil inlet, 26
...Oil outlet, 28...Check valve. Figure 1 Figure 2

Claims (1)

[Claims] 1. A spiral body formed by winding a relatively thick sheet-like filter material while sandwiching a narrow spacer material of the same type as the filter material on one side thereof, and a spiral body that accommodates the spiral body and the spiral body. A casing is provided that separates one end surface side and the other end surface side of the shaped body from each other and guides them to the fluid inlet/outlet, respectively, and the liquid to be filtered introduced from both sides of the filter material and the end surface of the spacer material is passed through these members. A filter element, characterized in that the filtrate is moved in a plane direction through the interior of the spiral body to lead out the filtrate from the end of the spiral body on the side where the spacer material is located.