KR20070112938A - Industrial strainer - Google Patents

Abstract

An industrial strainer is provided to increase durability of a filter substantially by preventing sizes of filtering holes from being changed even after cutting the filtering holes and enable the industrial strainer to be manufactured easily and improve productivity by assembling a filter part promptly and simply. In an ordinary industrial strainer comprising a body(10) which has an inflow port(11) and an outflow port(12) formed on both sides thereof, and which has a collection part(50) and a discharge port(51) formed on a lower part thereof to collect and discharge alien substances, and a filter(30) installed in the body to filter a fluid flown into the filter through the inflow port and send the filtered fluid to the outflow port, an industrial strainer is characterized in that the filter includes: vertical supporting rods(31) arranged in a predetermined pattern; a lower supporting plate(39) for supporting bottom parts of the supporting rods; a plurality of ring-shaped strips(36) fitted and stacked onto the supporting rods using clamping holes of the arrangement pattern of the supporting rods; a plurality of spacers(37) which are interposed between the strips when stacking the strips and penetrated into the respective supporting rods to form filtering holes(38) between respective layers of the strips; and an upper supporting plate(34) inserted onto top parts of the supporting rods to support the stacked strips and spacers.

Description

Industrial strainer {Industrial strainer}

1 is a side cross-sectional view showing a conventional industrial strainer.

Figure 2 is a side cross-sectional view showing an industrial strainer according to the present invention.

Figure 3 is an enlarged view of the main part of the industrial strainer according to the present invention.

Figure 4 is a cross-sectional view showing a compression dehydrator of the industrial strainer according to the present invention.

Figures 5a, 5b is an operating state diagram showing the dehydrator of the industrial strainer according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10-Body 11-Inlet 12-Outlet

14-Guide plate 21-Drive motor 30-Filter part

31-Support Rod 34-Upper Support Plate 36-Sheet

37-Spacer 38-Filtration hole 39-Lower support plate

40-Scraper 50-Collector 60-Crimp Dehydrator

61-Crimp cylinder 62-Piston 63-Feed hole

64-Push 66-Check Valve

The present invention is easy to manufacture by the filter forming the industrial strainer by laminating the thin plate through the spacer to form a filter hole, the size of the filter can be freely controlled by adjusting the thickness of the spacer to increase the filtration accuracy In addition, the cutting process for cleaning the filter can maintain the filtration performance for a long time without affecting the size of the filtration hole. Also, when the precipitated foreign material is discharged, it is compressed and dehydrated with a pressurized dehydrator to recycle water and discharge only the foreign material. The present invention relates to an industrial strainer that is easy to treat foreign matters such as to reduce the volume of the foreign matter.

In general, the strainer used to filter foreign matter, impurities, etc. from the fluid, the body (1) and the inlet (1a) and the outlet (2b) respectively formed to be connected to the fluid transfer pipe, the inlet (2a) of the body (1) A filter unit 3 which is rotatably installed by a drive motor m between the outlet and the outlet 2b, a plurality of scrapers 4 which are installed in close contact with the outer circumferential surface of the filter unit 3, and the body 1 It is installed in the lower portion of the collection unit 5 for collecting the foreign matter precipitated by the scraper (4).

Here, the filter portion 3 is provided with a plurality of support rods 3a at equal intervals on the same axis at predetermined intervals, and the filtration holes 3c are formed by the intervals. In addition, the filter ring (3b) has a structure in which the cross section is formed in a pointed triangular inward to widen the filter hole (3c) toward the inside.

In the strainer having such a structure, foreign matter is filtered out by the filter part 3 and the fluid passes through the filter hole 3c and is discharged to the outlet 2b. The filter hole 3c of the filter part 3 is used for a long time. When foreign matter is jammed and fixed, the washing is not performed by the scraper 4, so that the outer peripheral surface of the filter unit 3 is cut to remove the foreign matter. For this reason, the filtration hole 3c has a disadvantage in that the size increases with each cutting process, and the filtration efficiency rapidly decreases.

In addition, there is a problem in that the manufacturing of the filter is difficult and takes a long time because it is difficult to uniformly arrange the interval when installing the filter ring (3b).

In addition, when the filtered foreign substances are discharged, the collected foreign substances contain a large amount of water, so that the volume and weight thereof increase, so that their transportation and processing have a disadvantage of costly.

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to prevent the change in the size of the filtration hole even after the cutting process to eliminate the clogging of the filtration hole due to long use to improve the filtration efficiency It is to provide an industrial strainer that can greatly extend the durability of the filter, such as to maintain it for a long time, and to facilitate the assembly of the filter unit quickly and easily, thereby making it easy to manufacture and improving the productivity. .

Still another object of the present invention is to dehydrate the pressurized dehydrator during the discharge of the filtered foreign matter so that water is recycled and only the foreign material is discharged, thus reducing the volume and weight of the foreign material, thereby facilitating the processing work and reducing the processing cost. To provide.

Industrial strainer of the present invention for achieving the above object,

A body having an inlet for introducing a fluid to be purified and an outlet for discharging the purified fluid and having an outlet for discharging the filtered foreign matter at the lower part thereof, and a filtration while passing the fluid introduced into the inlet through the inside of the body In the conventional strainer comprising a filter to send to the outlet and the foreign matter attached to the outside of the filter by the drive of the drive motor operated by the pressure difference between the inflow and outflow of the fluid, the filter And a plurality of ring-shaped thin plates laminated and inserted into the support rods by using vertical support rods arranged in a predetermined pattern, a lower support plate supporting lower portions of the support rods, and a coupling hole of the arrangement pattern of the support rods. It is interposed between the thin plate and the thin plate when laminated, and is installed through each support rod to each layer And a plurality of spacers to provide a filtered space between the thin plate, is composed of an upper support plate for supporting the laminated sheet is inserted and the spacer at the top of the support bar.

In addition, the discharge port is characterized in that the compression dehydrator connected to the dehydration to discharge the foreign matter filtered by the filter is installed.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a side cross-sectional view showing the industrial strainer of the present invention, Figure 3 is an enlarged view of the main portion of the industrial strainer of the present invention.

As shown in the drawings, the industrial strainer according to the present invention includes a tubular body 10 that largely forms an outer body, a filter unit 30 installed inside the body 10, and the body ( 10) it is composed of a compression dehydrator 60 is installed to the lower portion to dehydrate and discharge the filtered foreign matter.

The body 10 is a hollow cylindrical shape inside the cover is coupled to the top is blocked from the outside, the side is formed with an inlet 11 through which the fluid to be filtered and the outlet 12 for discharging the filtered water is formed have. At this time, the outlet 12 is installed at a position higher than the inlet 11. In addition, the lower portion of the body 10 has a hopper-shaped foreign matter collecting unit 50, the lower portion of the collecting unit 50 is formed with an outlet 51 for discharging the collected foreign matter.

In addition, a drive motor 21 for rotating the filter unit 30 is installed on an upper portion of the cover coupled to the upper portion of the body 10, and the drive shaft 22 of the drive motor 21 penetrates the cover. Is connected to the filter unit (30). In addition, an air vent 24 is installed on the upper cover of the body 10.

The filter part 30 is installed in a plurality of ring-shaped thin plates 36 having a coupling hole 36b having a predetermined pattern such as a circular or polygonal shape, and corresponding to the coupling holes 36a of the thin plate 36, and is coupled to the central portion. A plurality of spacers 37 having a ball 37a, vertical support rods 31 fitted to the coupling holes 36a and 37a, and upper and lower support plates coupled to upper and lower ends of the support rods 31. (34) and (39). The upper support plate 34 has an open central portion, the lower support plate 39 is blocked, and a fastening hole 34a having the same pattern as that of the coupling hole 36a of the thin plate 36 is formed.

The assembly structure of the filter unit 30 will be described in more detail. The lower end of the support rod 31 is inserted into the fastening hole 34a of the lower support plate 39 and fastened to the upper portion of the lower support plate 39. The support rod 31 is installed upright, and the spacer 37 is located between each of the thin plates 36 while stacking the thin plates 36 by inserting the coupling holes of the thin plates 36 into the supporting rods 31. The spacer 37 is interposed. The spacer 37 is also provided by fitting the coupling holes 37a to the respective supporting rods 31.

When the stacking of the thin plate 36 and the spacer 37 is completed, the upper support plate 34 is fitted to the upper end of the support rod 31, and then the upper end of the support rod 31 exposed through the fastening hole 34a. A nut is fastened to a screw part to firmly support the support rod 31 and to close the laminated thin plate 36 and the spacer 37.

When the thin plates 36 are stacked in this manner, a plurality of filter holes 38 having a thickness of the spacer 37 between the thin plates 36 and the thin plates 36 are spaced at regular intervals by the spacers 37 provided between the layers. Is formed.

When the fluid to be filtered is introduced into the inlet 11 by this structure, particles are introduced into the filter unit 30 through the filter holes 38 formed in the filter unit 30 and larger particles than the filter holes 38 in the process. Will be filtered. The filtered water is discharged to the outlet 12 through the upper portion and the foreign matter filtered by the filter unit 30 is precipitated to the lower foreign substance collecting unit 50.

The filter unit 30 is connected to the lower end of the drive shaft 22 installed on the upper portion of the body 10, as described above, is rotatably mounted, and is formed around the upper support plate 34 of the upper portion of the filter unit 30. The guide plate 14 is tightly installed between the inner walls of the body 10 to isolate the inside and the outside of the filter unit 30 and to support the filter unit 30.

On the other hand, a plurality of scrapers 40 is fixed to the lower portion of the guide plate 14 vertically in close contact with the outer circumferential surface of the filter unit (30). That is, in the process of passing through the filter unit 30 in which the fluid is rotated, foreign matter mixed in the fluid is filtered and adhered to the outer circumferential surface of the filter unit 30, and the foreign matter adhering to the filter unit 30 is rotated by the filter unit 30. As it is eliminated by the scraper 40 is precipitated.

When explaining the function of the scraper 40 in more detail, foreign matter may be deposited on the outside of the filter unit 30 to block the filtration hole 38 in accordance with the long-term use of the filter unit 30, the filter unit ( The difference occurs between the external pressure and the internal pressure of 30). The pressure difference is sensed through a separate sensor to operate the drive motor 21, and the drive motor 21 rotates the filter unit 30 through the drive shaft 22. The scraper 40 disposed close to the circumference by the rotation of the filter unit 30 scrapes off the surface of the filter unit 30 to remove the adhered foreign matter, and the dropped foreign matter is precipitated and collected by the collecting unit 50.

4 is a cross-sectional view showing a compression dehydrator of the industrial strainer according to the present invention.

As shown in the figure, the outlet 51 of the body 10 is provided with a compression dehydrator 60 for compressing and discharging the foreign matter.

The compression dehydrator 60 is a compression cylinder 61 having an inlet pipe 61a for introducing dehydration through the outlet 51 at the upper portion, and is installed at one side of the compression cylinder 61 to be pneumatically or hydraulically installed. A piston 62 which presses the pressure in the pressurized cylinder 61 while actuated by the first cylinder 61 'actuated, and the other side of the pressurized cylinder 61 is installed to provide moisture to the piston 62. The filter body 61b for filtering the filter 61 and the discharge valve 65 for discharging the filtered water, and the cylinder body in front of the filter 61b at the position where the compressed material is placed by the piston 62 being removed. Compress the dewatered compressed material by sliding away from the compression cylinder 61 by a second cylinder 63 'operated by pneumatic or hydraulic pressure while having the same internal space as the body of the compression cylinder 61 in the removed space. Discharge cylinder which transfers to outside of cylinder 61 Consists of 63, and the pressing cylinder 61 is provided outside the push (64) to push the discharge feed water in the pressing the pressing cylinder 61 is transferred to the external is completed said discharge cylinder (63).

At this time, the discharge valve 65 is discharged to the outlet 12 of the body 10 through the separate transfer pipe (65a) is discharged, and the check valve (65b) is installed to prevent the back flow, the The discharge cylinder 63 is formed so that the upper portion is elongated to the same thickness to block the space portion of the compression cylinder 61 during the lowering operation, thereby preventing the fluid from being lost.

The foreign matter collected in the collection unit 50 by the compression dehydrator 60 is introduced into the compression cylinder 61 when discharged. When the piston 62 is advanced by the first cylinder 61 'operated by pneumatic or hydraulic pressure, water is passed through the filter 61b by the pressure and the outlet port of the body 10 through the feed pipe 65a. 12) and foreign matter is filtered out. The foreign matter is dehydrated and solidified by the completion of the compression stroke of the piston 62.

In this state, the second cylinder 63 ′ slides the discharge cylinder 63 and slides it to the lower portion of the compression cylinder 61. Then, the push 64 operates to push foreign substances in the discharge cylinder 63. It is discharged to a debris collection part not shown in.

When the discharge of the foreign matter is completed, the second cylinder 63 'contracts to return the discharge cylinder 63 to its original position, and the piston 62 retreats to contain a large amount of moisture in the compression cylinder 61. Foreign substances are introduced to perform the same dehydration process.

As described above, the industrial strainer according to the present invention has the advantage of being quick and easy to manufacture because the flat ring-shaped thin plate and the spacer are sandwiched alternately by supporting rods.

In addition, the size of the filtration hole between the thin plates formed by the spacer has the advantage of high filtration efficiency.

In addition, despite the cutting process for removing the clogging of the filter hole by foreign substances by long time use, the size of the filter hole is kept constant, so there is an effect that can ensure a good filtration efficiency for a long time even when used.

In addition, since the dehydrator is equipped at the discharge port for discharging the foreign matter, the dehydration of the foreign material during the discharge of the foreign material recycles water and only discharges the solidified foreign material, thereby facilitating the treatment of the foreign material and reducing the processing cost.

Claims (3)

A body 10 having an inlet 11 for introducing the fluid to be purified and an outlet 12 for discharging the purified fluid, and having a collecting part 50 for collecting the foreign matter filtered thereon and an outlet 51 for discharging it. )Wow, In the conventional strainer comprising a filter (30) installed inside the body (10) and filtered while passing the fluid introduced into the inlet (11) to the outlet (12), The filter 30, Vertical support rods 31 arranged in a pattern, Lower support plate 39 for supporting the lower portion of the support rods 31, A plurality of ring-shaped thin plates 36 sandwiched by the support rods 31 and laminated by using coupling holes of the arrangement patterns of the support rods 31; When laminating the thin plate 36 is interposed between the thin plate 36 and the thin plate 36, is installed through each support rod 31 to provide a filter hole 38 between the thin plate 36 of each layer. A plurality of spacers 37, Industrial strainer, characterized in that consisting of the upper support plate (34) for supporting the spacers (37) and the thin plate laminated to the upper end of the support rod (31). The industrial strainer according to claim 1, wherein the discharge port (51) is connected to a compression dehydrator (60) for dewatering and discharging the foreign matter filtered by the filter (30). The method of claim 2, The compression dehydrator 60, A compression cylinder 61 having an inlet pipe 61a for introducing dehydrated water through an outlet 51 at an upper portion thereof, A piston 62 installed at one side of the compression cylinder 61 and actuated by pneumatic or hydraulic pressure; A filter 61b installed at the other side of the compression cylinder 61 to filter out water by the pressure of the piston 62 and a discharge valve 65 for discharging the filtered water; After the pressing is completed by the piston 62, the pressing cylinder 61 body part in front of the filter 61b at the position where the pressing object is placed is removed, and the same inner space as the pressing cylinder 61 body is removed in the removed space. A discharge cylinder 63 having the compressed and dewatered compressed material having a slide-away from the compression cylinder 61 by pneumatic or hydraulic pressure to the outside of the compression cylinder 61; Industrial strainer, characterized in that the push cylinder (61) installed outside the compression cylinder (61) configured to push and discharge the compressed conveyance in the discharge cylinder (63) completed transfer to the outside of the compression cylinder (61).

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