KR101370379B1 - Vibrating screen for removing impurities - Google Patents

Abstract

The present invention relates to a vibrating screen for removing impurities included in waste water, and more particularly, to a vibrating screen for removing impurities including a mesh net for filtering impurities included in waste water and having a structure in which the mesh net is vibrated to transfer the filtered impurities to one side thereof, wherein the impurities lodged in holes of the mesh net are separated from the holes by cleaning liquid, and then the separated impurities are discharged to one side of the mesh net through a scraper. The vibrating screen for removing impurities has a semicircular shape having an open upper portion. The vibrating screen for removing impurities includes: a mesh net into which raw water including impurities is introduced, the mesh net having a plurality of holes for filtering the impurities from the introduced raw water; a vibrating part vibrating the mesh net to transfer the filtered impurities toward one side of the mesh net; a cleaning liquid spray nozzle disposed below the outside of the mesh net to spray cleaning liquid to separate the impurities stuck in the holes of the mesh net from the holes; a scraper disposed inside the mesh net and pushing the impurities separated from the holes out to discharge to one side of the mesh net; and transfer cylinders coupled to the cleaning liquid spray nozzle and the scraper, respectively, to move forward or backward.

Description

Vibrating screen for removing impurities

The present invention relates to a vibrating screen for removing the impurities contained in the waste water / waste water, and more particularly provided with a mesh network to filter out the impurities contained in the waste water / waste water, the mesh mesh to filter the contaminants filtered by vibrating the mesh network The present invention relates to a vibrating screen for removing impurities, which is transported to one side of the mesh network, and the impurities contained in the holes of the mesh network are separated from the holes through the cleaning liquid, and then the impurities separated through the scraper can be discharged to one side of the mesh network.

In general, the sewage / wastewater discharged from domestic toilets, baths, kitchens, and livestock raising houses, and the wastewater discharged from industrial industries are primarily treated in sewage treatment facilities or septic tanks installed in each home or industry, and finally sewage It is treated at the terminal treatment plant, wastewater treatment plant or wastewater treatment plant.

At this time, since the waste water is in a state in which a large amount of water and solids are mixed, the purification process cannot be properly performed without separating and removing solids (sludge), and since a large number of foreign substances are also included therein. In a broad sense it is called adulteration (挾 雜物, adulteration).

Therefore, the purification process includes a fixing for separating water and sludge, that is, contaminants through the dehydration process, and in this dewatering process, a belt press method for separating water by directly pressing the sludge by a filter cloth or a screw passing through the roller. Or screw press.

Conventional dewatering apparatus includes a centrifugal force drum screen that separates water by using centrifugal force acting on a rotating filter cylinder, and a conventional drum screen is registered Utility Model No. 20-417966 (registered May 29, 2006). As shown in FIG. 1, the prior art is equipped with a drum 3 having a cylindrical structure in which a screen 32 is installed on an upper side of the support frame 1, and a wastewater supply pipe on one inner surface of the drum 3. In the drum screen combined with (4), a power frame (2) having a wastewater discharge hopper (21) and a roller drive device (22) is formed on the upper surface of the support frame (1), and the drum (3) At least two rotary guide rails R protruding in a circular band structure on one side and the other side of the outer diameter are characterized in that the drum 3 is seated on the roller drive device 22 of the power frame 2.

However, the prior art is that the contaminants adsorbed on the wall and the bottom surface of the drum 3 becomes solid with time, contaminating the inside of the drum, and the dewatering ability is lowered, and the drum is decomposed to clean the inside of the drum 3. There was a problem that must be washed after.

Furthermore, since the drum 3 has a cylindrical shape, there is a problem in that the size of the drum screen is enlarged and the amount of power consumed thereby increases.

The description of the prior art and the reference numerals shown in FIG. 1 are separate from the detailed descriptions of the present invention and the reference numerals shown in the drawings.

The present invention is to solve the above problems, to reduce the occupied space occupied during the installation by miniaturizing the size of the mesh network and to guide the mesh mesh to the discharge port by oscillating the mesh mesh to the outlet, interposed in the hole of the mesh network It is an object of the present invention to provide a vibrating screen for removing a contaminant, which enables the removal of contaminants through a washing liquid and a scraper.

In order to achieve the above object, the present invention is made of a semi-circular shape with an open top, the raw water containing the contaminant is introduced, the mesh network is formed with a plurality of holes for filtering the contaminants from the incoming raw water, A vibrating unit for moving the meshed matters by vibrating the meshed network to one side of the meshed network, and a washing liquid spraying port for spraying a cleaning solution from the outside of the meshed network to separate the impurities contained in the holes of the meshed network from the holes; And a scraper disposed inside the mesh net and pushing the scraped material separated from the hole to one side of the mesh net, and a transfer cylinder coupled to the washing liquid spray port and the scraper, respectively, to advance or reverse it.

In addition, the scraper is made of a shape corresponding to the inner shape of the mesh network, characterized in that the removal brush for removing impurities remaining on the inner surface of the mesh network along the lower outer peripheral surface is fixedly coupled.

The mesh network may further include guide rails through which lower ends of both sides of the scraper are inserted and guided, and the scrapers may include protrusions inserted into the guide rails to move.

In addition, the washing liquid injection port, the injection head is coupled to one end of the transfer cylinder to move forward or backward by the operation of the transfer cylinder, the transfer pipe coupled to the injection head and the cleaning liquid is transferred, disposed above the injection head And a nozzle for spraying the washing liquid upward, a washing liquid storage portion for collecting the washing liquid sprayed through the nozzle after passing through the mesh network, and disposed in the washing liquid storage hole to the transfer pipe. It characterized in that it comprises a pump for delivering a cleaning liquid.

Further, the vibrating unit is disposed on one side of the lower side of the mesh network and comprises a motor coupled to the eccentric cam, and a vibration support fixed to the mesh network to support the mesh network shaken from side to side by the motor, the vibration The support is an upper bracket fixed to the upper edge of the mesh net, a lower bracket fixed to the upper surface of the base on which the mesh net is disposed, a support penetrated through the upper bracket and the lower bracket, and an upper surface of the lower bracket And an elastic support fixed to the upper end, a spring disposed on the elastic support and disposed around the outer circumferential surface of the support and a cap for contacting the upper portion of the spring to prevent the spring from escaping to the outside. .

The present invention made as described above, through the semicircular mesh net formed with a plurality of holes to filter the contaminants in the raw water containing the contaminants and discharge the contaminants filtered through the vibrating portion to one side of the mesh network, the outer lower portion of the mesh network The scraper disposed in the mesh network is separated from the holes in the mesh network, and a scraper for pushing out the debris is disposed inside the mesh network, so that the filter function of the mesh network does not deteriorate even after long use. .

1 is a front view showing a conventional drum screen.
2 is a perspective view of a vibrating screen according to the present invention;
3 is a front view showing a vibrating screen according to the present invention.
4 is a state diagram showing the raw water treatment state of the vibration screen according to the present invention.
Figure 5 is a perspective view showing a scraper and washing liquid spraying sphere according to the present invention.
Figure 6 is a state diagram showing the operating state of the scraper and washing liquid jet in accordance with the present invention.
7 is a plan view showing an operating state of the vibration unit according to the present invention.
8 is a front view showing an operating state of the vibration unit according to the present invention.
9 is a perspective view showing a motor and a vibration support in accordance with the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the vibrating screen for processing the contaminants according to the present invention.

2 to 5, the vibration screen for processing the contaminant according to the present invention (hereinafter, abbreviated as 'vibration screen') 1 is used to filter out the contaminant AD from the introduced raw water OW. A mesh net 10 having a plurality of holes, a vibrating unit 20 for moving the filtered mesh (AD) to one side of the mesh net 10 by vibrating the mesh net 10, and the mesh net 10 In order to separate the contaminants (AD) interposed in the hole of the hole from the hole and the washing liquid injection port 30 for spraying the washing liquid (W) from the outside of the mesh network 10, and disposed inside the mesh network (10) A scraper 40 which pushes out the contaminant AD separated from the hole to one side of the mesh network 10, and is transported to combine with the washing liquid injection port 30 and the scraper 40 to advance or reverse it, respectively. It comprises a cylinder 50.

The mesh network 10 is for filtering the contaminants (AD) contained in the raw water (OW), the upper portion is formed in a semi-circular net form extending in the longitudinal direction, a plurality of holes are formed After the raw water OW including the AD flows through the open upper part, the raw water OW falls to the lower part through the hole, and the contaminant AD is filtered between the hole and the hole.

In addition, the mesh network 10 may be formed such that the bottom surface is inclined toward both sides from both sides in addition to the semicircular shape.

The mesh network 10 is formed in a semi-circular shape so that the filtered contaminants (AD) are gathered to the center to the mesh net 10 is shaken by the vibration unit 20 to be described later to one side of the mesh network (10). Will be discharged.

Looking at the process of processing the raw water (OW) introduced into the mesh network 10, first the raw water (OW) containing the contaminant (AD) is introduced from the first open side, the introduced raw water (OW) is a mesh network After being filtered while passing through (10), the residual wastewater (RW) falls to the bottom and is then transported to a separate reaction tank (not shown in the figure), and the contaminants AD filtered by the mesh network 10 are mesh networks 10 After being transferred to the central portion of the) is moved in the opposite direction through which the raw water (OW) is introduced through the vibrator 20 to be described later is collected through the contaminant collection unit (70).

The vibrator 20 is to shake the mesh net 10 in order to transfer the contaminants AD filtered by the mesh net 10 to one side of the mesh net 10, the mesh net 10 of the It comprises a motor 21 disposed on one side, and a vibration support 22 which is fixed to the mesh network 10 to support the mesh network 10 shaken from side to side by the motor 21.

The motor 21 is disposed in a direction perpendicular to the longitudinal direction of the mesh network 10 in order to vibrate the mesh network 10 to the left and right, the eccentric cam 212 coupled to the motor shaft 211 is It is provided to push the fixed rod 14 provided in the mesh network (10).

7 and 8, the eccentric cam 212 is coupled to the motor shaft 211 so that the eccentric cam 212 rotates when the motor shaft 211 rotates. The mesh net 10 is shaken by pushing the mesh net 10 to the left in contact with the rod 14.

The vibration support 22 is for supporting the mesh network 10, as shown in detail in Figure 9, the upper bracket 221 fixed to the upper edge of the mesh network 10, and A lower bracket 222 fixed to the upper surface of the base 80 on which the mesh network 10 is disposed, a support 223 penetrated and coupled to the upper bracket 221 and the lower bracket 222, and the lower bracket ( The elastic support 224 fixed to the upper surface of the 222 and the top is open, and the spring 225 and the spring 225 disposed on the elastic support 224 and wrapped around the outer circumferential surface of the support 223 The cap 226 and the buffer member 230 disposed between the support 223 and the upper bracket 221 and the lower bracket 222 to prevent the spring 225 from coming off to the outside in contact with the upper portion of the It is made, including.

The upper bracket 221 and the lower bracket 222 are fixed to the mesh net 10 and the base 80 through the fixing screw 227, the through hole 229 through which the support 223 is coupled through Each of which is formed, the through hole 229 is provided with a fixing nut 228 for fixing the support 223 coupled.

The support 223 is coupled to the upper bracket 221 and the lower bracket 222 to support the mesh network 10, the upper bracket 221 and the lower bracket 222 through the fixing nut 228. Fixed).

The elastic support 224 is fixed to the upper portion of the lower bracket 222 and the hollow is formed therein, the support 223 is coupled through, made of a material having elastic force, such as rubber, urethane, silicone, left or The support 223 tilted to the right side is prevented from being damaged.

The spring 225 has a lower end abutting against the elastic support 224 and an upper end abutting the cap 226 and surrounding the outer circumferential surface of the support 223 so that the support 223 is left or right. When inclined, it forms an elastic force for moving the support 223 in the opposite direction.

That is, when the mesh network 10 moves to the left side, the support 223 is inclined to the left side, at which time one side of the spring 225 is compressed by the support 223, the compressed elastic force is The support 223 is moved in the opposite direction while pushing the support 223 in the opposite direction.

The cap 226 is to prevent the upper end of the spring 225 abuts to prevent the spring 225 is separated from the upper portion, the lower portion is opened to open the lower portion of the elastic support 224 The spring 225 is disposed between the cap 226 and the elastic support 224 in a symmetrical shape.

The buffer member 230 is disposed on the upper bracket 221 and the lower bracket 222 through which the support 223 is coupled, and the support 223 moves so that the support 223 moves when the support 223 is shaken from side to side. It is compressed in a direction to be formed, it is formed from a rubber, urethane, silicone or the like having elastic force as a material.

In this case, the buffer member 230 is disposed on the upper bracket 221, the lower bracket 222, the cap 226 and the elastic support 224 to which the support 223 is coupled through, so that the support 223 is left. Or it is compressed while being pressed by the support 223 shaking when shaking to the right.

7 and 8, the operating state of the vibrator 20 is disposed below the mesh network 10 and shakes the mesh network 10 in the left and right directions so that the contaminants are formed in the mesh network 10. Move it to the left. At this time, the mesh network 10 has a semi-circular shape or the bottom surface is gradually narrowed toward the center as described above, and gathered in the center portion, the collected mess is centered by the operation of the vibration unit 20 To gather, and the gathered contaminants are gradually moved to the left side of the figure by the mesh network 10 continuously shaken from side to side.

The washing liquid spray port 30 is disposed in the lower portion of the mesh network 10 and sprays the washing liquid W from the outside of the mesh network 10 to the hole while moving forward or backward by the transfer cylinder 50. The interposed impurities AD are separated into the mesh network 10.

To this end, the washing liquid injection port 30 is coupled to the spray head 31 and the spray head 31, which are coupled to one end of the transfer cylinder 50 to move forward or backward by the operation of the transfer cylinder 50, and the wash liquid. A transfer pipe 33 through which (W) is conveyed, and a nozzle 32 disposed above the spray head 31 and spraying the washing liquid W upward are provided. In this case, a plurality of nozzles 32 may be disposed in the injection head 31.

Further, the lower portion of the washing liquid injection port 30 is provided with a washing liquid storage port 34 for collecting the washing liquid (W) injected through the nozzle 32, the transfer pipe 33 is the washing liquid storage hole (34) It can be combined to make it possible to reuse the washing liquid (W).

The transfer pipe 33, which is coupled to the injection head 31 to move forward or backward is made of a flexible pipe to be adjustable in length, the washing liquid storage port 34 to deliver the washing liquid to the transfer pipe (33) The pump 35 is further provided.

That is, the washing liquid W filtered while passing through the mesh network 10 is collected in the washing liquid storage port 34 and then transferred to the transfer pipe 33 again through the pump 35 and then through the nozzle 32. It is reinjected.

Furthermore, some of the raw water that has passed through the mesh network may be stored in the washing liquid storage port 34 and then transferred to the transfer pipe 33 and the nozzle 32 through the pump 35 to be sprayed onto the mesh network 10. It is.

The scraper 40 is disposed inside the mesh net 10 to move the contaminants to one side of the mesh net 10 while advancing through the transfer cylinder 50, and the inner shape of the mesh net 10. It is made of a shape corresponding to the removal brush 41 is further provided to pass while sweeping the contaminants (AD) along the lower outer peripheral surface.

The scraper 40 and the washing liquid injection port 30 is for cleaning the mesh network 10 in a state in which raw water does not flow into the mesh network 10, that is, at the rest of the mesh network 10, and the scraper ( 40) and when the washing liquid injection port 30 is operated, the operation of the vibrator 20 is stopped.

In addition, the inner surface of the mesh net 10 is provided with guide rails 11 on which both lower ends of the scraper 40 are placed for smooth movement when the scraper 40 moves forward or backward, and the scraper 40 According to the shape of the projection rail 11 is inserted into the guide rail 11 may be further provided.

When the shape of the scraper 40 is made to correspond to the internal shape of the mesh network 10, when the mesh network 10 is semi-circular, the guide rail 11 is provided with a projection 42 on the scraper 40 When the mesh network 10 has a lower portion inclined toward the center, the lower ends of both sides of the scraper 40 are directly inserted into the guide rails 11 and moved.

The removal brush 41 is separated after the contaminant (AD) interposed in the hole of the mesh network 10 is separated into the upper side of the mesh network 10 through the cleaning liquid (W) sprayed from the washing liquid injection port (30) 41) is transported while sweeping the separated impurities (AD). In addition, the removal brush 41 is in direct contact with the mesh network 10 to remove the contaminants AD interposed in the hole from the hole.

The transfer cylinder 50 is for advancing or retracting the scraper 40 and the washing liquid injection port 30, and the transfer cylinder 50 is provided with a plurality of cylinder shafts 51, the cylinder shaft 51 is the scraper 40 And fixed to the washing liquid injection port 30, respectively. In this case, the transfer cylinder 50 may operate through various driving forces such as hydraulic pressure and pneumatic pressure, and the type of driving force is not particularly limited.

As shown in (a) of FIG. 5, the transfer cylinder 50 may be provided in plural numbers so as to be coupled to the washing liquid injection port 30 and the scraper 40, respectively, as shown in FIG. As described above, it is possible to simultaneously advance or reverse the washing liquid injection port 30 and the scraper 40 through one transfer cylinder 50.

The scraper 40, the washing liquid injection port 30, and the transfer cylinder 50 will be described with reference to FIG. 6 as follows.

First, in the state in which the contaminant AD is interposed in the hole of the mesh net 10, the washing liquid W is sprayed inward from the lower outer side of the mesh net 10 through the nozzle 32 of the washing jet nozzle 30. And, the sprayed washing solution (W) is to separate the contaminants (AD) interposed in the hole to the inside of the mesh network (10).

At this time, the spray head 31 of the washing liquid injection port 30 is advancing through the transfer cylinder 50 while continuously spraying the washing liquid (W) to the lower portion of the mesh network 10 while the impurities (AD) interposed in the hole It is separated into the inner upper portion of the mesh network (10).

The scraper 40 is disposed inside the mesh network 10 to be advanced by the transfer cylinder 50, but is disposed behind the spray head 31 to be flushed from the spray head 31. ) Is pushed through the mesh network 10 to remove the contaminants (AD) separated from the hole.

Subsequently, the washing liquid (W) is introduced into the washing liquid storage hole (34) disposed below the mesh network while passing through the mesh network (10) again, through a transfer pipe (33) coupled to the spray head (31). Washing liquid (W) is to be reused.

At this time, the position of the washing liquid spraying hole 30 is left ahead of the scraper 40, the washing liquid spraying hole 30 is advanced first, followed by the scraper 40 is followed by the mesh material (scraps separated from the hole) 10) to the left.

The present invention made as described above, through the semicircular mesh net formed with a plurality of holes to filter the contaminants in the raw water containing the contaminants and discharge the contaminants filtered through the vibrating portion to one side of the mesh network, the outer lower portion of the mesh network The scraper disposed in the mesh network is separated from the holes in the mesh network, and a scraper for pushing out the debris is disposed inside the mesh network, so that the filter function of the mesh network does not deteriorate even after long use. .

The specific embodiments of the present invention have been described above. It is to be understood, however, that the scope and spirit of the present invention is not limited to these specific embodiments, and that various modifications and changes may be made without departing from the spirit of the present invention. If you have, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

1: vibrating screen OW: enemies AD: contaminants
RW: Residual Wastewater W: Washing Liquid
10: mesh network 11: guide rail
20: vibration portion 21: motor 22: vibration support
211: motor shaft 212: eccentric cam
221: upper bracket 222: lower bracket 223: support
224: elastic support 225: spring 226: cap
227: set screw 228: set nut 229: through hole
30 washing liquid injection port 31 injection head 32 nozzle
33: transfer pipe 34: washing liquid storage port 35: pump
40: scraper 41: removal brush 42: projection
50: transfer cylinder 51: cylinder shaft

Claims (5)

The upper part is made of an open semicircular shape, the raw water (OW) containing the contaminant (AD) is introduced, the mesh network 10 formed with a plurality of holes for filtering the contaminant (AD) from the introduced raw water (OW) and;
An eccentric cam coupled to the motor 21 disposed below one side of the mesh network 10 and the motor shaft 211 of the motor 21 to shake the mesh network 10 from side to side according to the operation of the motor ( A vibration unit 20 including 212 to transfer the contaminants AD filtered by the mesh network 10 to one side of the mesh network 10;
A washing liquid spraying hole (30) for spraying the washing liquid (W) from the outside of the mesh network (10) to separate the contaminant (AD) interposed in the hole of the mesh network (10) from the hole;
A scraper (40) disposed inside the mesh net (10) to push out the contaminant (AD) separated from the hole to one side of the mesh net (10);
A transfer cylinder 50 for coupling to the washing liquid injection port 30 and the scraper 40 to advance or reverse it, respectively; and
Vibrating screen for removing the impurities, including the base 80 is disposed the mesh net 10 and the vibrator 20. The method of claim 1, wherein the scraper 40,
Consists of a shape corresponding to the inner shape of the mesh network 10,
Vibrating screen for removing dirt, characterized in that the removal brush 41 is fixed to remove the impurities (AD) remaining on the inner surface of the mesh net 10 along the outer peripheral surface. The method of claim 1,
In the mesh network 10,
Further provided with guide rails 11 are inserted into the lower ends of the scraper 40 is guided,
In the scraper 40,
Vibrating screen for removing the debris, characterized in that the projection 42 is inserted into the guide rail (11) to move. According to claim 1, The washing liquid injection port 30,
One end of the transfer cylinder 50 is coupled to the injection head 31 to move forward or backward by the operation of the transfer cylinder 50,
A transfer pipe 33 coupled to the injection head 31 and to which a washing liquid W is transferred,
A nozzle 32 disposed above the spray head 31 and spraying the washing liquid W upward;
A washing liquid storage hole 34 provided at a lower portion of the washing liquid spraying hole 30 for collecting the washing liquid W sprayed through the nozzle 32 after passing through the mesh network 10;
Vibrating screen for removing the dirt, characterized in that it comprises a pump 35 is disposed in the washing liquid storage port 34 for delivering the washing liquid to the transfer pipe (33). The vibrator 20 according to any one of claims 1 to 4,
The vibration support 22 is further provided to support the mesh network 10 is fixed to the mesh network 10 and shaken from side to side by the motor 21,
The vibration support 22,
An upper bracket 221 fixed to an upper edge of the mesh network 10,
A lower bracket 222 fixed to an upper surface of the base 80;
A support 223 penetrated and coupled to the upper bracket 221 and the lower bracket 222,
An elastic support 224 fixed to an upper surface of the lower bracket 222 and having an open top;
A spring 225 disposed on the elastic support 224 and disposed surrounding the outer circumferential surface of the support 223;
A cap 226 for abutting the upper portion of the spring 225 to prevent the spring 225 from leaving out;
Vibrating screen for removing impurities, characterized in that it comprises a buffer member 230 disposed between the support 223 and the upper bracket 221 and the lower bracket 222.

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