KR100471270B1 - A suction filter device for a pump - Google Patents

Abstract

Sensing the flow rate or pressure of the waste water pump to automatically set the cleaning time inside the suction filter to automatically clean the perforated plate inside the filter by using the air jet pressure and the water jet pressure;

In the waste water pump suction filter device provided on one side of the suction pipe on the wastewater treatment system for the wastewater pump sucks the wastewater of the wastewater tank through the suction pipe, and discharges the wastewater to the wastewater collection station through the discharge pipe,

A flow meter mounted on one side of the discharge pipe and detecting a flow rate of the wastewater passing through the discharge pipe; A crush filter unit provided between the suction pipe and an inlet pipe connected to the waste water tank, and configured to include a pneumatic spray nozzle and a hydraulic spray nozzle each for injecting high pressure pneumatic and water pressure; A pneumatic and hydraulic control valve mounted on a pneumatic pipe and a hydraulic pipe for supplying pneumatic and hydraulic pressure to the pneumatic spray nozzle and the hydraulic spray nozzle of the crushing filter unit, respectively, to control the supply of pneumatic and hydraulic pressure; Suction filter device for a wastewater pump including a controller for controlling the injection of the pneumatic and hydraulic pressure through the pneumatic spray nozzle and the hydraulic spray nozzle by controlling the pneumatic and hydraulic pressure control valve on-off according to the signal of the flow meter To provide.

Description

Suction filter device for waste water pump {A SUCTION FILTER DEVICE FOR A PUMP}

The present invention relates to a suction filter device for a wastewater pump, and more particularly, by detecting the flow rate or pressure of the discharge side of the wastewater pump and automatically setting a cleaning time inside the suction filter to filter the air by using an air jet pressure and a water jet pressure. It relates to a suction filter device for a wastewater pump to automatically clean the inner perforated plate.

In general, a wastewater treatment system for collecting wastewater into a wastewater collection plant includes a wastewater pump 105 to suck wastewater from the wastewater tank 103 through a suction pipe 101, as shown in FIG. On the suction pipe 101, a suction filter 107 is mounted to remove the sludge in order to prevent the wastewater pump 105 from being burned out by the sludge in the wastewater being sucked.

And the wastewater sucked through the wastewater pump 105 is discharged to the wastewater collection station 111 through the discharge pipe 109 is collected.

However, the above-described conventional suction filter is a general configuration frequently clogged by sludge in the wastewater, and the worker has to periodically disassemble and clean the filter. The problem is that the response is slow.

Therefore, the present invention has been invented to effectively solve the problems described above, the object of the present invention is to detect the flow rate or pressure of the discharge side of the waste water pump to automatically set the cleaning time inside the intake filter air injection pressure and water It is to provide a suction filter device for a wastewater pump that can automatically clean the perforated plate inside the filter using the injection pressure.

Suction filter device for a wastewater pump of the present invention for achieving the above object is the suction on the wastewater treatment system in which the wastewater pump sucks the wastewater of the wastewater tank through the suction pipe, and discharges the wastewater to the wastewater collection station through the discharge pipe. In the suction filter device for a wastewater pump provided on one side of the pipe,

A flow meter mounted on one side of the discharge pipe and detecting a flow rate of the wastewater passing through the discharge pipe; A crush filter unit provided between the suction pipe and an inlet pipe connected to the waste water tank, and configured to include a pneumatic spray nozzle and a hydraulic spray nozzle each for injecting high pressure pneumatic and water pressure; A pneumatic and hydraulic control valve mounted on a pneumatic pipe and a hydraulic pipe for supplying pneumatic and hydraulic pressure to the pneumatic spray nozzle and the hydraulic spray nozzle of the crushing filter unit, respectively, to control the supply of pneumatic and hydraulic pressure; And a controller for controlling pneumatic and hydraulic pressure injection through the pneumatic spray nozzle and the hydraulic spray nozzle by controlling the pneumatic and hydraulic pressure control valves on-off in response to a signal of the flow meter.

The crush filter unit is formed with an inlet port connected to the inlet pipe on one side of the upper, a discharge port is connected to the suction pipe of the waste water pump is formed on the lower side, the filter housing is the cover is fastened; A cylindrical perforated plate mounted inside the filter housing; A plurality of hydraulic spray nozzles mounted inwardly to correspond to the perforated plate at one outer circumferential surface of the filter housing; A pneumatic spray nozzle mounted inwardly to correspond to the perforated plate at a lower center of the filter housing; And a hydraulic nozzle pipe mounted to the cover and inserted into the perforated plate.

The plurality of hydraulic spray nozzles and the hydraulic nozzle pipes are all connected to the outside of the filter housing through the hydraulic pipe.

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

1 is an overall configuration diagram of a wastewater treatment system to which a suction filter apparatus for a wastewater pump of the present invention is applied, and FIG. 2 is an enlarged cross-sectional view of a suction filter apparatus for a wastewater pump of the present invention. Looking at the system, the waste water pump (1) is configured to suck the waste water of the waste water tank (5) through the suction pipe (3), and to discharge and collect the waste water to the waste water collection station (9) through the discharge pipe (7). .

An intake filter device according to the present invention is installed in such a wastewater treatment system. First, a flow meter 11 for detecting a flow rate of wastewater passing through the discharge pipe 7 is installed at one side of the discharge pipe 7.

And between the intake pipe 3 of the waste water pump 1 and the inlet pipe 13 connected to the waste water tank 5, as shown in Figure 2, to inject high-pressure pneumatic and water pressure The crushing filter unit 20 which comprises the pneumatic spray nozzle 15, the hydraulic spray nozzles 17 and 19, and the hydraulic nozzle pipe 21, respectively is provided.

In addition, a pneumatic pipe 23 and a hydraulic pipe for supplying pneumatic and hydraulic pressure to the pneumatic spray nozzle 15, the hydraulic spray nozzles 17 and 19, and the hydraulic nozzle pipe 21 of the crush filter unit 20, respectively ( 25 is equipped with a pneumatic control valve 27 and a hydraulic pressure control valve 29 for intermitting the supply of pneumatic and hydraulic pressure, respectively, and the pneumatic and hydraulic pressure control valves 27 and 29 in accordance with the signal of the flow meter (11) On-off control is provided with a controller 30 which controls the injection by pneumatic and hydraulic pressure through the pneumatic spray nozzle 15, the hydraulic spray nozzles 17 and 19 and the hydraulic nozzle pipe 21.

Here, the configuration of the crush filter unit 20 is formed in the inlet port 31 is connected to the inlet pipe 13 is connected to the waste water tank 5 on the upper side, the suction of the waste water pump (1) on the lower side A filter housing 35 having an outlet 33 to which the pipe 3 is connected is fastened to the cover 37 at an upper end thereof to secure a hollow space 39 therein.

A cylindrical perforated plate 41 is installed in the inner space 39 of the filter housing 35, and the two hydraulic spray nozzles face inward to correspond to the perforated plate 41 on one side of the outer circumferential surface of the filter housing 35. (17, 19) is mounted, the pneumatic spray nozzle 15 is installed through the pipe member 43 inward to correspond to the perforated plate 41 in the lower center of the filter housing (35).

In addition, the cover 37 is equipped with a hydraulic nozzle pipe 21 inserted into the perforated plate 41, wherein the two hydraulic spray nozzles 17 and 19 and the hydraulic nozzle pipe 21 are both in the filter housing. It is connected through the hydraulic pipe 25 from the outside of the 35, the pneumatic spray nozzle 15 is connected through the pneumatic pipe 23 from the outside of the filter housing 35.

Therefore, the operation of the intake filter device for a wastewater pump according to the present invention having the configuration as described above, first, by driving the wastewater pump (1) through the intake pipe (3) and inlet pipe (13) waste water tank (5) In the process of suctioning the wastewater and discharging the wastewater to the wastewater collection station 9 through the discharge pipe 7, when the wastewater flows into the filter housing 35, the wastewater passes through the perforated plate 41. Flowing into the wastewater pump 1, large sludges (e.g., oxidizing scale, oils, other impurities, etc.) in the wastewater are attached to the perforated plate 41 or aggregated by oil or the like.

At this time, the flow rate (or pressure) in the discharge pipe 7 of the discharge side of the waste water pump 1 is dropped, the flow meter 11 detects this and outputs the signal to the controller 30.

Then, the controller 30 receives the flow signal so that the high-pressure pneumatic and hydraulic pressure may be sequentially injected through the pneumatic spray nozzle 15, the hydraulic spray nozzles 17 and 19, and the hydraulic nozzle pipe 21. The pneumatic and hydraulic pressure control valves 27 and 29 are sequentially operated.

That is, when the wastewater flows into the filter housing 35 through the inflow pipe 13 from the wastewater tank 5, sludge having a diameter smaller than the hole of the perforated plate 41 in the filter housing 35 passes along with water. By the waste water pump (1) and the discharge pipe (7) is collected to the wastewater collection station (9).

During the collection operation of the wastewater, a sludge having a diameter larger than the hole size of the perforated plate 41 over time blocks the hole of the perforated plate 41 and is detected from the discharge side flow meter 11 of the wastewater pump 1. When lower than this set value, first, the pneumatic control valve 27 is operated to inject high pressure pneumatic pressure through the pneumatic spray nozzle 15 to crush the sludge adhering to the perforated plate 41 firstly, and after a predetermined time, The controller 30 operates the hydraulic pressure control valve 29 to supply high pressure hydraulic pressure through the two hydraulic spray nozzles 17 and 19 and the hydraulic nozzle pipe 21 to thereby discharge the sludge in the secondary. Fracture and remove.

As such, when the perforated plate 41 inside the filter housing 35 is automatically cleaned and the wastewater pump 1 is driven again, the flow rate of the discharge side can be recovered.

According to the suction filter device for a wastewater pump according to the present invention as described above, by detecting the flow rate or pressure of the discharge side of the wastewater pump automatically set the cleaning time inside the suction filter to filter by using the air injection pressure and water injection pressure The internal perforated plate can be cleaned automatically, eliminating the need for the operator to periodically disassemble and clean the filter, and automatically clean the perforated plate in the filter housing to maintain the water level in the waste water tank and to maintain the life of the pump. It is possible to prolong the effect.

1 is an overall configuration diagram of a wastewater treatment system to which a suction filter device for a wastewater pump of the present invention is applied.

2 is an enlarged cross-sectional view of a suction filter device for a wastewater pump of the present invention.

3 is an overall configuration diagram of a wastewater treatment system to which a suction filter device for a wastewater pump according to the prior art is applied.

Claims (3)

In the wastewater pump suction filter device provided on one side of the suction pipe on the wastewater treatment system for the wastewater pump sucks the wastewater of the wastewater tank through the suction pipe, and discharges the wastewater to the wastewater collection station through the discharge pipe, A flow meter mounted on one side of the discharge pipe and detecting a flow rate of the wastewater passing through the discharge pipe; A crush filter unit provided between the suction pipe and an inlet pipe connected to the waste water tank, and configured to include a pneumatic spray nozzle and a hydraulic spray nozzle each for injecting high pressure pneumatic and water pressure; A pneumatic and hydraulic control valve mounted on a pneumatic pipe and a hydraulic pipe for supplying pneumatic and hydraulic pressure to the pneumatic spray nozzle and the hydraulic spray nozzle of the crushing filter unit, respectively, to control the supply of pneumatic and hydraulic pressure; A controller for controlling pneumatic and hydraulic pressure injection through the pneumatic spray nozzle and the hydraulic spray nozzle by controlling the pneumatic and hydraulic pressure control valves on-off in response to a signal of the flow meter; Suction filter device for a wastewater pump comprising a. The method of claim 1, wherein the shredding filter unit An inlet for connecting the inlet pipe to an upper side is formed, an outlet for connecting the inlet pipe of the wastewater pump to a lower side thereof, and a filter housing to which the cover is fastened; A cylindrical perforated plate mounted inside the filter housing; A plurality of hydraulic spray nozzles mounted inwardly to correspond to the perforated plate at one outer circumferential surface of the filter housing; A pneumatic spray nozzle mounted inwardly to correspond to the perforated plate at a lower center of the filter housing; A hydraulic nozzle pipe mounted to the cover and inserted into the perforated plate; Suction filter device for waste water pump, characterized in that consisting of The suction filter apparatus of claim 2, wherein the plurality of hydraulic spray nozzles and the hydraulic nozzle pipes are all connected through a hydraulic pipe at an outside of the filter housing.