BE1017399A3 - Filter for composite water and sewage treatment, has thermoplastic polymer filters having coarser diameter for its irregular ringed filaments and larger space for its interspaces than one positioned behind - Google Patents

Abstract

The filter device (10) comprises extruded thermoplastic polymer filters (101-103) which form irregular ringed filaments that are mutually twisted, entangled together and piled up, with interspaces in between to let sewage flow through. Each filter has a coarser diameter for its ringed filaments and a larger space for its interspaces than the one positioned behind. A filter device for composite water treatment and sewage treatment comprises high molecular weight thermoplastic polymer filters manufactured via thermal extrusion to form irregular ringed filaments that are mutually twisted and entangled together and then piled up. Interspaces are formed between the ringed filaments to let sewage flow through. Each filter has a coarser diameter for its ringed filaments and a larger space for its interspaces than the one positioned behind.

Description

FILTER FOR THE COMBINED TREATMENT OF WATER AND

SEWAGE

BACKGROUND OF THE INVENTION

1. Field of the invention

This invention relates to a type of filter, more in particular a filter installed in a sewage treatment equipment and a filter tank for microbes.

2. Description of the prior art

Usually a conventional filter is used in various sewage treatments such as: 1. sewage treatment of houses, aquaculture and garden 2. sewage treatment of buildings t 3. treatment of water for ponds, rivers, lakes and others and 4. treatment of rainwater

The methods for treating the water usually include adsorption, sedimentation and the degradation of microbes, as well as purification, disinfection and reduction of water pollution.

SUMMARY OF THE INVENTION

The main purpose of this invention is to provide a filter for the combined treatment of water and sewage.

The main feature of the invention is a block in a predetermined shape (plate, column or cylinder). Each block has a different density and a different surface filtering function. The various! blocks can be stacked in different ways to satisfy the different sewage water treatments, whereby optimum filtration of the sewage water is obtained to ensure that the water flowing out meets the criterion. The blocks, which are classified into three varieties, consist respectively of numerous ringed filaments which are obtained by thermal extrusion and are twisted together in an irregular manner. There are also numerous gaps between the blocks so that the sewage can pass through. The density and surface filtering of the block are characterized by the diameter of the ringed filament and the size of the gaps. During use, the sewage water first flows through the thin block and then gradually through the blocks with a higher density that increase the filtering effect and the degradation of microbes. In addition, the combination of the blocks can be installed in a vacuum tube so that it can be easily loaded, unloaded and cut.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention can be better understood with reference to the accompanying drawings, wherein:

FIG. 1 is a perspective view of a preferred embodiment of a filter for the combined treatment of water and sewage water according to the present invention;

FIG. 2 is a partially enlarged view of a ringed filament of a block in the filter according to the present invention;

FIG. 3 is a cross-sectional view of a first application of the filter in the present invention for a biological filter system;

FIG. 4 is an illustration of a second application of the filter according to the present invention for a biological filter tank;

FIG. 5 is a vertical cross-sectional view of a third application of the filter according to the present invention for a biological filter system;

FIG. 6 is a horizontal cross-sectional view of the third application of the filter according to the present invention for a biological filter system;

FIG. 7 is a vertical cross-sectional view of a fourth application of the filter of the present invention to a biological filter system and

FIG. 8 is a horizontal cross-sectional view of the fourth application of the filter of the present invention to a biological filter system.

DETAILED DESCRIPTION OF THE PREFERRED

PERFORMANCE

Figures 1 and 2 show a preferred embodiment of a filter 10 for the combined treatment of water and sewage water according to the present invention. The filter 10 consists of a first filter 101, a second filter 102 and a third filter 103 through which the sewage water flows in succession. The first, the second and the third filter 101, 102 and 103 consist of a plurality of blocks 11 in a certain shape, such as a long and thin shape in this embodiment. The block 11 is made of a thermoplastic high-molecular polymer, made via thermal extrusion, in numerous irregularly ringed filaments 111 that are twisted and stacked together. Among the ringed filaments 111, there are also numerous gaps 112 formed to allow the sewage to flow through. The diameter of the ringed filament 111 of the first filter 101 is larger than that of the second filter 102 and that of the second filter 102 is larger than that of the third filter 103. In addition, the gaps of ringed filament 111 of the first filter are 101 larger than those of the second filter 102 and those of the second filter 102 are larger than those of the third filter 103. In other words, block 11 of filter 10 has thinner ringed filaments 111 and smaller gaps 112 than the previous position.

FIG. 3 shows a first embodiment of the installation according to the present invention. The first, the second and the third filter 101, 102 and 103 are respectively installed in a housing 21 with different microbe and mechanical reactors 20. The blocks 11 of each filter 10 are piled up along the flow direction of the sewage water. A connecting tube 22 is connected between every two neighboring reactors 20. During use, the sewage water to be treated is transferred to the reactor 20 of the first filter 101 via the connecting tube 22 and is mainly filtered through the ringed filaments 111 and the gaps 112 of the blocks II to perform the degradation at the same time, and then it is then transferred to the reactor 20 of the second filter 102 via the connecting tube 22 and further filtered through the ringed filaments III and the gaps 112 of the blocks 11 for degradation and finally, it is transferred to the reactor 20 from the third filter 103 via the connecting tube 22 and is further filtered through the ringed filaments 111 and the gaps 112 of the blocks 11 for degradation. The treated sewage water flowing from the third filter 103 is sent to a treatment tank for a subsequent treatment in which a sufficiently planned filtering and degradation of microbes is obtained.

Figure 4 shows a second embodiment of the installation according to the present invention. The first, the second and the third filter 101, 102, 103 are installed in a housing 21 of a microbial reactor 20. The blocks 11 of each filter 10 are neatly stacked along the flow direction of the sewage. During use, the sewage water is transferred and flows through the blocks 11 of the first, second and third filters 101, 102 and 103 to arrive at a sufficiently planned filtering and degradation of microbes.

Figures 5 and 6, respectively, a cross-section, show a third embodiment of the installation according to the present invention. The filter 10 is installed in a filter column 30 of an aquarium or fish pond or aqua farm. The block 10 of each of the first, second and third filters 101, 102 and 103 is rolled up to form a column and is coaxially installed in the filter column 30 to fit the filters 101, 102 and 103 from bottom to top in the correct order in which sufficient planned filtering and degradation of microbes is obtained.

Figures 6 and 7, respectively, a cross-section, show a fourth embodiment of the installation according to the present invention. The block 10 of each of the first, the second and the third filter 101, 102 and 103 is rolled up as a cylinder with a different diameter and is coaxially installed in the filter column 30 to assemble the filters 101, 102 and 103 from outside to inside wrapping, whereby a sufficiently planned filtering and degradation of microbes is obtained.

It should be noted that the irregularly reduced filaments 111 and the gaps 112 can cause the sewage water to flow in a different order to achieve a homogeneous effect. Moreover, thanks to the different sizes of the ringed filaments 111 and the gaps 112 at the first, second and third filters 101, 102 and 103, the system can prevent not only the gaps 112 from becoming clogged but also the planned filtering and degradation of carry out microbes. In a further description, the first filter 101 can only block large substances and most mud and impurities in the sewage water through the larger ringed filaments 111 and gaps 112, making the filtering more dominant than the degradation of microbes in the first filter 101. As the ringed filaments 111 and gaps 112 gradually become smaller for the second and third filters 102 and 103, the blocked mud and impurities must of course be reduced and the microbes adhered to the ringed filaments 112 for the degradation of organic compounds in the sewage water are increased so that the degradation of microbes gradually becomes more dominant than the filtering in the second and third filters 102 and 103. As a result, optimum filtering and degradation of microbes for the treatment of sewage water is obtained to meet the standards for the water flowing out.

While the preferred embodiment of the invention has been described above, it is recognized and understood that various changes may be made therein and the appended claims are intended to cover all of these changes that fall within the spirit and scope of the invention.

Claims (8)

A filter for the combined treatment of water and sewage water, said filter comprising a plurality of filters made of a thermoplastic high-molecular polymer and produced via thermal extrusion to form numerous irregular ringed filaments that are twisted together and brought together and then piled up, with numerous gaps formed between these ringed filaments to allow the sewage water to flow through, with each such filter having a larger diameter for the ringed filaments and a larger space for the gaps than the filter placed behind it. A filter for the combined treatment of water and sewage water as claimed in Claim 1, wherein these filters are shaped as blocks. A filter for the combined treatment of water and sewage water as claimed in Claim 1, wherein these filters comprise at least three different specifications for these ringed filaments and these gaps. A filter for the combined treatment of water and sewage water as claimed in Claim 1, wherein these filters are installed in the same housing. A filter for the combined treatment of water and sewage water as claimed in Claim 3, wherein these filters are arranged piled up along a flow direction of the sewage water. A filter for the combined treatment of water and sewage water as claimed in Claim 1, wherein these filters are installed in different housings. A filter for the combined treatment of water and sewage water as claimed in Claim 1, wherein each of these filters is rolled up in the form of a column and coaxial and installed sequentially in a filter column. A filter for the combined treatment of water and sewage water as claimed in Claim 1, wherein each of these filters is rolled up in a cylindrical shape with a different diameter and wound together for installation in a filter column.