KR100808905B1 - Apparatus for filteration of water - Google Patents

Abstract

An apparatus for filtering water is provided to prevent filtering holes of a screen from being clogged due to external particles, which are adsorbed on the screen for filtering off the external particles. A separation plate(103) is installed within a cylinder case(102) such that an inner space of the cylinder case is divided into an upper space and a lower space. An inlet(104) is formed at one side of the cylinder case such that the inlet penetrates the lower space of the cylinder case. An outlet(105) is formed at the side of the cylinder case such that the outlet penetrates the upper space of the cylinder case. A cylindrical screen(106) filters off external particles of water, which is inputted through the inlet. A discharge port(107) penetrates a lower end of the cylinder case. At least one scraper(108) closely adheres to a boundary surface region on a vertical line of an inner radius surface of the cylindrical screen, thereby separating the external particles adsorbed onto the boundary surface region and discharging the separated external particles through the discharge port. A first drainpipe(109) is installed at a lower portion of the scraper and the discharge port so that the lower portion of the scraper communicates with the discharge port. A screen-rotating unit rotates the screen so that the scraper separates the external particles adsorbed on the inner radius surface of the screen. Further, the apparatus for filtering water contains a nozzle part, a supporting pipe, a differential manometer and a controlling part.

Description

Apparatus for filteration of water

1 is a view showing the appearance of the first embodiment of the water filtration device according to the present invention.

2 is a sectional view showing a first embodiment of the present invention.

2 shows a second embodiment of the present invention;

<Description of the symbols for the main parts of the drawings>

101: closing cap 102: cylindrical housing

103: separator 104: inlet

105: outlet 106: screen

107: outlet 108: scraper

109: first drain pipe 110: upper guide

111: lower guide 112: drive motor

113: support bracket 114: guide bracket

115: brush 116: nozzle portion

117: supply pipe 118: second drain pipe

The present invention relates to a water filtration device, and in particular, by the foreign matter adsorbed on the screen for filtering the foreign matters that are not necessary when using water containing a large amount of foreign matters, such as river water, such as industrial water, etc. The present invention relates to a water filtration device for immediately eliminating the clogging of the filtration holes of the screen to perform a smooth water filtration function.

In general, the water filtration device is to be used for industrial or industrial to be reused by filtration and regeneration of water containing various foreign matters, has been developed and used in various forms depending on the purpose of use.

As described above, the water filtration device made in various forms can be classified according to the method of cleaning the screen which plays an important role in filtering the water.

Here, in the case of the forced washing type water filtration device, the inside of the cylinder part is divided into a separating wall to be composed of the inflow chamber and the outflow chamber, and foreign substances contained in the water passing through the screen installed inside the cylinder part are filtered out.

At this time, the foreign matter stuck to the outer circumferential surface of the screen is configured to rotate the scraper, the inner diameter surface of the screen and the scraper forcibly contacted to remove the foreign matter adsorbed on the screen.

Therefore, the foreign matter stuck to the screen can be smoothly removed from the initial water filtration device after a certain period of time from the installation, but when the sealer wears out after the seal, the removal capacity is reduced to narrow or clogg the filtration holes of the screen. It will cause a problem.

In addition, the screener is composed of a structure that is in close contact with the inner diameter surface of the screen, the foreign matter adsorbed by the filter by the close contact of the scraper is pushed out of the screen, which eventually block the filter, accordingly Inevitably, this has to be accompanied by an uncomfortable problem of disassembling and cleaning the water filtration device.

The present invention devised to solve the above problems, even if the scraper is in close contact with the inner diameter surface of the screen to prevent foreign substances adsorbed on the screen is pushed out of the filter hole and to prevent wear of the scraper to achieve long-term use The purpose is to provide a water filtration device.

The purpose of the above, the closing cap 101 is coupled to the top, the lower portion of the cylindrical receiving portion 102, the inner side is installed in the inner side so that the inner side is separated into the upper and lower, the separator 103 formed with the inlet (103a) The inlet 104 formed at one side of the cylindrical receiving part 102 to penetrate the lower part of the separator 103, and the outlet 105 formed at the other side of the cylindrical receiving part 102 to penetrate the upper part of the separator 103. In addition, the cylindrical screen 106 is installed to be in close contact with the upper outer periphery of the inlet hole (103a) or the inner circumferential surface of the inlet hole (103a) to filter the foreign matter of the water introduced into the inlet (104), and the lower portion of the cylindrical receiving portion (102) In the water filtration device, characterized in that it comprises a discharge port 107 formed in the through, in the back flow by desorbing the foreign matter adsorbed to the interface region of the vertical line in a constant width of the inner diameter surface of the screen 106 At least one scraper to allow discharge to the outlet 107 108; A first drain pipe 109 having a tubular shape installed at the lower portion of the scraper 108 and the discharge port 107 so as to communicate from the lower end of the scraper 108 to the discharge port 107; Rotating the screen 106 is achieved by the water filtering device, characterized in that it comprises a rotating means of the screen to desorb the foreign matter adsorbed on the entire inner diameter surface of the screen 106 by the scraper 108.

Here, the rotation means of the screen, the groove 110a is coupled to the bottom surface of the closing cap 101 of the cylindrical housing 102, the top of the upper frame 106a is coupled to the top of the screen 106 is inserted An upper guide 110 formed; A lower guide 111 formed at an outer periphery of the lower frame 106b of the screen 106 to be supported by an upper outer periphery of the inlet hole 103a of the separator 103; A drive motor 112 installed to allow the drive shaft 112a to penetrate into the cylindrical receiving part 102 from the top of the closing cap 101 of the cylindrical receiving part 102; At least one support bracket 113 coupled to the inner side of the upper frame 106a of the screen 106 and the drive shaft 112a of the drive motor 112.

The scraper 108 may include a guide bracket 114 having a “c” shape extending vertically; It is coupled to the end of the guide bracket 114 includes a brush 115 to elastically interfere with the filter hole of the screen 106.

In addition, the nozzle unit 116 is installed to be close to the outer diameter of the screen 106 at a position corresponding to the screener 108 inside the screen 106, and at least one spray nozzle (not shown) is installed vertically; ; A supply pipe 117 coupled to any one of pipes coupled to the oil outlet 105 and the outlet 105 so that water is supplied to the nozzle unit 116, and an inlet portion of the nozzle unit 116; A differential pressure gauge (not shown) coupled to the inlet 104 and the outlet 105 to measure a difference in the discharge pressure of the water discharged to the outlet 105; It is preferable to further include a control unit (not shown) configured to open and close an on / off valve (not shown) installed in the supply pipe 117 according to the differential pressure measured and connected to the differential pressure gauge.

On the other hand, the above purpose, the closing cap 101 is coupled to the top, the bottom is closed in the inner side so that the inner side of the cylindrical receiving portion 102 is closed, upper and lower separator plate formed with an inlet (103a) ( 103, an inlet 104 formed at one side of the cylindrical receiving part 102 to penetrate the lower part of the separator 103, and an outlet 105 formed at the other side of the cylindrical receiving part 102 to penetrate the upper part of the separator 103. And a cylindrical screen which is in close contact with the upper outer periphery of the inlet hole 103a or the inner circumferential surface of the inlet hole 103a and fixed to the bottom of the closing cap 101 to filter foreign matter from the water introduced into the inlet 104. And a discharge opening 107 formed through the lower end of the cylindrical water receiving portion 102, wherein the water filtering device is in close contact with an interface region of a predetermined width in the inner diameter surface of the screen 106. Desorbs the foreign matter adsorbed to the interface area to be discharged to the discharge port 107 during the reverse flow At least one scraper 108; A second drain pipe 118 having a tubular shape installed through the discharge port 107 at a lower end of the scraper 108 and rotatably installed at the discharge port 107; It is also achieved by the water filtration device, characterized in that it comprises a rotating means of the scraper to rotate the screener 108 to desorb foreign substances adsorbed to the entire inner diameter surface of the screen 106.

Here, the rotation means of the scraper, the drive motor 112 is installed so that the drive shaft (112a) penetrates into the cylindrical housing portion 102 in the upper end cap 101 of the cylindrical receiving portion (102); At least one support bracket 113a coupled to the inner surface of the scraper 108 and the drive shaft 112a of the drive motor 112.

The scraper 108 may include a guide bracket 114 having a “c” shape extending vertically; It is coupled to the end of the guide bracket 114 includes a brush 115 to elastically interfere with the filter hole of the screen 106.

Hereinafter, the configuration and operation of the present invention will be described with reference to FIGS. 1 to 3.

First, the configuration and operation of the present invention will be described by dividing it into the first embodiment and the second embodiment, and parts common to the first embodiment of the description of the second embodiment will be omitted.

First Embodiment

As shown in FIG. 1, the cylindrical housing portion 102 is formed in a '∪' shape having an upper end bolted by the closing cap 101, but is not limited to the shape of the cylindrical receiving portion 102 in the present invention. Design can be changed.

The inner side of the cylindrical housing portion 102 is separated into the upper and lower by the separator 103, in which the lower portion is in communication with the inlet 104, as shown in Figure 2, the upper portion is the outlet 105 In communication with.

The separator 103 is formed of a donut shape ('0'), and has an inlet hole 103a formed at the center thereof, and is in close contact with an upper peripheral edge of the inlet hole 103a or an inner circumferential surface of the inlet hole 103a. If the cylindrical screen 106 is installed as shown in Figure 2, the screen 106 is composed of a filtering net 106c to filter out various foreign matter contained in the water, the top and bottom of the filtering net 106c The upper frame 106a and the lower frame 106b are combined to allow the filtering network 106c to maintain a cylindrical shape.

In addition, in the first embodiment, the cylindrical screen 106 provides a rotating means of the screen to rotate in a state of being in close contact with the upper outer peripheral portion or the inner circumferential surface of the inlet hole (103a).

Rotating means of the screen, the drive motor 112 is coupled to the top of the closing cap 101, the drive shaft (112a) to penetrate into the interior of the cylindrical housing 102, the bottom surface of the closing cap 101 The upper frame 110 of the screen 106 is coupled to the groove 110a by engaging the ring-shaped upper guide 110 in which the groove 110a is formed in the circumferential direction.

In addition, the lower guide 111 is protruded to the outer circumferential surface of the lower frame 106b of the screen 106 so as to be supported by the upper outer periphery of the inlet hole 103a of the separator 103 so that the screen 106 is the upper guide ( Rotation along the groove 110a of the 110 and at the same time to prevent the departure from the inlet hole (103a).

In addition, at least one support bracket 113 formed on the inner diameter surface of the upper frame 106a of the screen 106 is coupled to the drive shaft 112a penetrated by the cylindrical accommodation portion 102, such that the drive shaft 112a is rotated. In this case, the upper bracket 106a and the screen 106 and the lower frame 106b can be rotated by the support bracket 113.

Here, the scraper 108 is installed on the inner diameter surface of the screen 106 so that the foreign matter adsorbed on the interface region of the screen 106 is brought into close contact with each other, and the scraper 108 extends vertically. Combining the excellent elasticity of the brush 115 to the end of the "c" shaped guide bracket 114, the brush 115 is in close contact with the inner diameter surface of the screen 106.

Accordingly, as shown in FIG. 2, the brush 115 coupled to the end of the 'c' cross-section guide bracket 114 having a predetermined width extending from the bottom of the inner diameter surface of the screen 106 to the top thereof is rotated when the screen 106 rotates. It is inserted into the gap of the filtering net 106c of the screen 106 in contact therewith and is adsorbed into the gap of the inner diameter of the screen 106 and the gap of the filtering net 106c while repeatedly performing a close contact with the inner diameter of the screen 106. In addition to preventing foreign matters from being pushed toward the outer diameter surface side of the screen 106, foreign matters can be effectively removed while preventing the gap of the filter net 106c from becoming thick due to the foreign matters.

In addition, the scraper 108 is to be in close contact with at least one inner diameter surface of the screen 106 as shown in Figure 2, the guide bracket 114 of the scraper 108, the scraper ( 108 is connected to the first drain pipe 109 made of a tubular shape so as to communicate from the lower end to the outlet 107 of the cylindrical receiving portion 102, when the foreign matter desorbed by the brush 115 is backwashed at the time of backwashing However, since the water pressure of the water flowing into the inlet 104 and trying to be discharged to the outlet 105 through the screen 106 does not significantly affect the guide bracket 114, opening and closing the outlet 107. Opening the discharge valve (not shown) allows the foreign matter desorbed by the brush 115 to be discharged by being guided to the discharge port 107 along the first drain pipe 109 even during the process of filtering water. You can perform the removal It is good.

On the other hand, according to the first embodiment of the present invention, the nozzle unit 116 in which at least one spray nozzle is vertically installed to approach the outer diameter of the screen 106 at a position corresponding to the scraper 108 inside the screen 106. And an inlet portion of any one of pipes (not shown) coupled to the outlet port 105 and the outlet port 105 to supply water from which foreign matter is removed to the nozzle unit 116 and the nozzle unit 116. The supply pipe 117 is coupled, and the supply pipe 117 is provided with an on-off valve that is electronically controlled.

In addition, the inlet 104 and the outlet 105 are respectively provided with a differential pressure gauge to measure the discharge pressure difference of the water discharged to the outlet 105, the control unit is opened and closed when the difference of the water pressure measured by the differential pressure gauge is greater than the set value By opening the valve to allow water to be sprayed from the nozzle, foreign matter is desorbed from the outside of the screen 106 to the inside, and if the pressure difference by the differential pressure gauge is smaller than the set value, the on-off valve is kept closed and effectively the screen ( It is desirable to allow 106 to be cleaned.

Second Embodiment

As shown in FIG. 3, the driving motor 112 and the inlet 104, the inlet hole 103a, which are coupled to the cylindrical accommodating part 102 and the closing cap 101, the outlet 103 is formed. Since the configuration of the outlet 107 is the same as in the first embodiment, detailed description thereof will be omitted below.

On the other hand, the screen 106 in the second embodiment has a structure that is fixed to the cylindrical housing 102, unlike the first embodiment, the upper frame of the screen 106 is fixed to the bottom of the closing cap 101 By coupling the closing cap 101 to the cylindrical receiving portion 102, the lower frame 106b of the screen 106 is in close contact with the upper outer periphery of the inlet hole (103a) or the inner circumferential surface of the inlet hole (103a).

In addition, at least one scraper having a highly elastic brush 115 coupled to the end of the 'c'-shaped guide bracket 114 is formed in the interface area of a certain width formed in a straight line from the top of the inner diameter surface of the screen 106 Make sure 108 is in close contact.

And, as in the first embodiment is installed so that the second drain pipe 118 of the tubular shape that is installed through the discharge port 107 at the lower end of the scraper 108 is rotatably installed in the outlet 107, the guide bracket 114 As shown in FIG. 3, the lower end of the c) is integrally connected to the second drain pipe 118.

As described above, since the scraper 108 and the second drain pipe 118 are integrally connected, when the foreign matter detached by the brush 115 is guided downward along the 'C'-shaped guide bracket 114, the second In the second embodiment, the scraper 108 and the second drain pipe 118 are rotated so that the brush 115 of the scraper 108 causes the screen 106 to be discharged through the drain pipe 118 to the outlet 107. Rotating means of the scraper is provided to elastically interfere with the inner diameter surface of the.

The rotation means of the scraper, the inner side of the guide bracket 114 of the screener 108 and the drive shaft 112a on the drive shaft 112a penetrating into the cylindrical receiving portion 102 from the top of the closing cap 101. As shown in FIG. 3, the support bracket 113 is coupled to transmit the rotational force of the drive shaft 112a to the scraper 108.

As described above, in the present invention, foreign matter is filtered through the filtering network 106c of the screen 106 while the water flowing into the inlet 104 is passed from the inside of the screen 106 to the outside through the inlet hole 103a. Discharged to 105.

In the first embodiment, the drive motor 112 is continuously rotated at a constant speed, so that the screener 108 installed to be in close contact with the inner diameter surface of the screen 106 is maintained in a fixed state, thereby the brush 115 ) Scrapes the inner diameter surface of the screen 106 as it enters and exits the gap of the filtering network 106c, thereby removing foreign matter adsorbed on the entire inner diameter surface of the screen 106.

In addition, the filter network 106c of the screen 106 is clogged with foreign matter so that the water pressure of the water flowing into the inlet 104 and the outlet 105 by the differential pressure gauge installed in the inlet 104 and the outlet 105 If a difference occurs in the water pressure, the control unit opens the on / off valve only when the water pressure difference reaches a set value, so that the water is strongly injected from the nozzle, thereby forcibly washing the entire filtering network 106c of the rotating screen 106. It becomes possible.

In the second embodiment, unlike the screen 106 rotating in the first embodiment, the screen 106 remains fixed, and the screener 108 rotates according to the rotation of the driving motor 112. The foreign matter adsorbed on the screen 106 can be removed.

In the first and second embodiments described above, when the discharge valve for opening and closing the discharge port 107 is opened even during the process in which the water is filtered through the screen 106, the guide bracket 114 of the screener 108 is opened. Water flows back into the first drain pipe 109 and the second drain pipe 118 and is discharged to the discharge port 107 together with this substance, so that even in the process of filtering the water, it is not necessary to separate the backwashing process and to effectively remove the water. Filtration and screen 106 cleaning can be accomplished.

As described above, the present invention allows the brush of the scraper to remove the foreign matter adsorbed on the filter net of the screen, thereby preventing the removal efficiency degradation due to the wear of the scraper in advance, and to prevent rotation of the screen or the scraper. Accordingly, the resilient brush repeatedly enters and leaves the gap of the filter net, thereby preventing the filter net from clogging.

In addition, it is possible to perform backwashing in the process of filtering the water, thereby performing continuous water filtration without stopping the filtration work has the effect that the amount of water filtration per hour can be increased than before.

Claims (7)

delete The closing cap is coupled to the upper end, the inner side of the cylindrical receiving portion closed the lower portion is installed on the inner side to be separated into the upper and lower, the separator formed in the inlet hole, the inlet formed on one side of the cylindrical receiving portion to penetrate the lower part of the separator, and isolating An outlet formed on the other side of the cylindrical receiving part to penetrate the upper plate, a cylindrical screen installed to be in close contact with the upper peripheral edge of the inlet hole or the inner circumferential surface of the inlet hole, and to filter foreign substances of the water introduced into the inlet; At least one scraper having a thickness formed through the discharge port formed in the through-hole and the inner surface of the screen in close contact with the vertical interface area to desorb the foreign matter adsorbed to the interface area to be discharged to the discharge port during the reverse flow, and at least one scraper having a thickness, A water filtration plant comprising a lower portion of the scraper and a tubular first drainage pipe installed at the outlet to communicate with the outlet. In Chi, An upper guide coupled to a bottom surface of the closing cap of the cylindrical accommodation portion, and having a groove formed so that an upper end of the upper frame coupled to the top of the screen is inserted; A lower guide formed at an outer periphery of the lower frame of the screen and supported by an upper outer periphery of the separator inlet hole; A drive motor installed to allow the drive shaft to penetrate the inside of the cylindrical accommodation portion from the upper end of the cylindrical cap; And at least one support bracket coupled to an inner side of the upper frame of the screen and a drive shaft of the drive motor. delete The method of claim 2, A nozzle unit installed to approach a screen outer diameter at a position corresponding to the scraper inside the screen, and at least one spray nozzle installed vertically; A supply pipe coupled to any one of an outlet and a pipe coupled to the outlet so that water is supplied to the nozzle, and an inlet of the nozzle; A differential pressure gauge coupled to the inlet and the outlet to measure a difference in discharge pressure of water discharged to the outlet; And a controller configured to open and close the on / off valve installed in the supply pipe according to the differential pressure measured and connected to the differential pressure gauge. delete delete delete

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