KR100358325B1 - A filter sand exchange device for clean water reservoir - Google Patents

Abstract

The present invention relates to a filtration yarn exchange device for discharging filtration sand of a water purification plant from a filtration tank or injecting the filtration sand into a filtration tank. A vacuum hose having one side connected to the vacuum suction vehicle and a filter yarn exchanger installed at a predetermined position of the vacuum hose to discharge the filtered yarn to be sucked to the outside or to be introduced into the filter tank, and by vacuum pressure using the vacuum suction vehicle. By changing the filter sand automatically, it is easy to replace the dust, reduce the dust and noise generated during the exchange, and reduce the risk of safety accidents.

Description

Exchange device of water purification filtration company {A FILTER SAND EXCHANGE DEVICE FOR CLEAN WATER RESERVOIR}

The present invention relates to an apparatus for exchanging filtration sand (hereinafter, referred to as `` filtrator '') of a water purification plant, and in particular, by using a vacuum suction vehicle, a suction plant discharges the filtered sand in the water purification plant or introduces a new filtered sand into the water purification plant. It relates to a four exchange device.

In general, the filtrate administered to the water purification plant filtration tank is used to filter the wastewater into fresh water, and after a certain period of use, the filtrate loses its filtration function and must be replaced with a new filtrate. The work to be done is conventionally performed as follows.

First, in the case of discharging the filtrate which has lost the filtration function from the water purification tank, several workers (usually 10 or more) enter the filtration tank and crush the filtrate using a rock drill, and then use a shovel to excavate the filtrate or use Xcabay. I was working by scraping off with an Excavator.

In addition, when a new filter sand is put into a filtration tank, the filter sand is input using a conveyor, and the filter sand is selected by hand.

As described above, the replacement work of the filtrate has a problem of generating dust and noise during the operation, adversely affecting the environment of the water purification plant requiring cleanliness, and inefficient operation, which causes a lot of manpower, time, and economic loss. In addition, the manual work-oriented work method as described above has a problem that there is a risk of safety accidents due to falling objects, and the work method requires a large work space because the filter sand must be loaded in a container.

The present invention has been made in order to solve the above problems, by using a vacuum suction vehicle equipped with a filter yarn exchanger, by automatically discharging the filter yarn from the water purification plant or put into the water purification plant to simplify the replacement work, occurs during the exchange It is an object of the present invention to provide a water treatment plant filter sand exchange device for minimizing dust and noise.

It is another object of the present invention to reduce the risk of safety accidents and to reduce the work space by allowing the filter work to be replaced automatically.

1 is a process chart for explaining the process of discharging the filtered sand by the purified water filter sand exchanger according to the present invention,

Figure 2 is a process chart for explaining the process of introducing the filter sand by the purified water filter sand exchanger according to the present invention, Figure 3 is a perspective view schematically showing a filter sand exchanger in the present invention, Figure 4 is a filter sand in the present invention This is a schematic separation perspective view for explaining the state in which the exchanger is installed in the loading equipment.

Explanation of symbols on the main parts of the drawings

1: Filtration yarn 10: Vacuum suction car

21.22: vacuum hose 30: filtration tank

40: filter yarn exchanger 41: exchange barrel

42: on-off valve 43: pressure regulator

44: full stopper 50: loading equipment 51: guide rail 52: cart 53: mounting portion 54: inlet 55: guide roller 60: discharge mounting 61: discharge hopper 62: storage container 70: filter

The water purification plant filtration yarn exchange apparatus of the present invention for achieving the above object is a vacuum suction vehicle for forming a vacuum pressure to feed the filtration yarn into the filtration tank or to control the filtration yarn discharge from the filtration tank, and one side of the vacuum suction vehicle It comprises a connected vacuum hose and a filter yarn exchanger installed in the vacuum hose and sucked to discharge the filtered yarn to the outside or to be introduced into the filter tank.

Here, the filter yarn exchanger is movably installed in the filtration tank via the loading unit, the loading unit is a guide rail installed in the filtration tank, and a support for slidably coupled to the guide rail to mount the filter yarn exchanger. Consists of

According to the present invention made as described above, it is possible to automatically exchange the filter yarn of the water purification plant through a filter yarn exchanger.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a process diagram for explaining a process of discharging filtered sand by a water purification plant filter sand exchange apparatus according to the present invention, and FIG. Figure 3 is a process diagram for explaining the process of introducing the filtrate sand by the whole-water filter sand exchanger according to the invention, Figure 3 is a perspective view schematically showing the filter sand exchanger in the present invention. In the apparatus, the vacuum hoses 21 and 22 are connected to a vacuum suction vehicle 10 which forms a vacuum pressure, and the filter yarn 1 sucked by vacuum pressure at predetermined positions of the vacuum hoses 21 and 22. Filter exchanger (40) for discharging the gas to the outside or into the filtration tank (30) of the water purification plant is installed. That is, the vacuum hoses (21, 22) have a filter yarn exchanger (40) in between and one side is vacuumed. Connected to the intake vehicle 10 In addition, the other side is connected to the filter sand (1) so that the suction of the filtered filter 1 filled with water purification function filled in the filtration tank 30 by the vacuum pressure or to suck the new filter sand (1) in the filter user (70) Here, the filter yarn exchanger 40 is for discharging the filter yarn 1, which is sucked by the vacuum hoses 21 and 22 connected to both sides, to be discharged to the outside or introduced into the filtration tank 30 of the water purification plant. As shown in Fig. 3, when the filtration type exchange cylinder 41 and the filtration yarn 1 are filled in the exchange cylinder 41, the opening / closing valve 42 is opened to bring the filter cylinder 1 to atmospheric pressure. And a pressure regulator 43 for discharging the filtration yarn 1 under the exchange cylinder 41 by its own weight. A full amount stopper 44 is provided at the upper portion of the exchange cylinder 41, It is possible to control the discharge or input amount of the filter sand 1 sucked through the vacuum hoses (21, 22). The filter yarn exchanger 40 is installed in the filtration tank 30 of the water purification plant so as to be movable through the input loading machine 50. That is, as shown in FIG. It is slidably coupled to the filtration tank 30 through 50 so as to be able to evenly feed the filtration yarn 1 into the filtration tank 30, the loading tower 50 is a guide rail installed in the filtration tank (30) (51) and a trolley 52 which is slidably coupled to the guide rail 51 to mount the filtrate yarn exchanger 40. Here, the trolley 52 includes a filter yarn exchanger 40. The mounting portion 53 is formed to support the fixed portion, and the mounting portion 53 is formed with an inlet port 54 so that the filter yarn 1 falling from the filter yarn exchanger 40 can be introduced into the filtration tank 30. And, the guide rail 51 has a plurality of guide rollers (55) Is installed so that the cart 52 can slide smoothly along the guide rail 51. The operation of the cart 52 and the guide rail 51 may be performed manually, but with an automatic control device (not shown). (Not shown) is preferably configured to operate automatically. The vacuum suction vehicle 10 is provided with a control device and a power transmission device (not shown) for controlling the input and discharge process of the filter yarn 1. When explaining the process of discharging and injecting the filter sand by the water purification plant filter yarn exchange apparatus according to the present invention made as described above is as follows. First, the filtrate yarn exchanger 40 is installed in a separate filtrate discharge column 60, and the inside of the filtration tank 30 filled with the waste filter 1 having lost water purification function. Vacuum hose (22) Here, the discharge preparation operation of the filter yarn discharge unit 60 is provided with a discharge hopper 61 at the upper portion, and a predetermined amount of the waste filter 1 discharged from the discharge hopper 61 at the lower portion. A storage container 62, such as a bag or drum, for storing each is provided. As described above, when the discharge preparation operation is completed, the vacuum suction vehicle 10 is operated to generate a vacuum pressure to form a vacuum hose (21, 22). The vacuum filter is applied to the filter yarn exchanger 40. As the vacuum pressure is formed, the waste filter 1 including the sludge in the filtration tank 30 is sucked into the vacuum hose 22 by vacuum and filtered. The discharge of the filter yarn 1 filled in the filter yarn exchanger 40 is automatically metered by the quantity stopper 44. 40 is filled with the filter yarn (1) and then the on-off valve 42 of the filter yarn exchanger (40) When the opening is opened, the inside of the exchange cylinder 41 proceeds from the vacuum state to the atmospheric pressure state, and the filter yarn 1 filled in the exchange cylinder 41 is discharged toward the discharge mounting unit 60 equipped with the exchange cylinder 41 by its own weight. Subsequently, when the vacuum suction of the waste filter 1 discharged toward the discharge mounting apparatus 60, the introduced air is automatically discharged to the outside, and then a predetermined amount is stored in a storage container 62 such as a bag or a drum. The waste filter (1) is discharged by a separate collection method. The collected waste filter (1) is collected in a predetermined amount in a storage container (62) such as a bag or drum and transported to a designated treatment place for final treatment. In the present invention, a process of introducing a new filter yarn 1 into the filtration tank 30 will be described with reference to FIGS. 2 and 4. First, an input loading device 50 is installed on the filtration tank 30. Filtration exchanger 40 is installed thereon, followed by filtration The vacuum hoses 21 and 22 are put into the filter vessel 70 filled with the new filter yarn 1 to be put into the preparation chamber 30, and the preparation operation is carried out. As described above, the vacuum suction is completed. By operating the car 10 to generate a vacuum pressure, the vacuum pressure is applied to the vacuum hoses 21 and 22 and the filter yarn exchanger 40. As the vacuum pressure is formed in this way, a new pressure in the filter user 70 is generated. The filter yarn 1 is sucked into the vacuum hose 22 by vacuum and filled to the filter yarn exchanger 40 until it becomes full. Here, the filter yarn 1 filled in the filter yarn exchanger 40 is filled. The injection amount is automatically metered by the full amount stopper 44. When the filter thread exchanger 40 is filled with the filter sand 1, the opening / closing valve 42 of the filter thread exchanger 40 is opened. 41) The inside proceeds from the vacuum state to the atmospheric pressure state, and the filter yarn 1 filled in the exchange cylinder 41 is replaced by its own weight. It is to fall into the filtration tank 30 through the inlet port 54 of the loading unit 70 equipped with (41). Therefore, the guide rail 51 is mounted on the cart 52 on which the filter sand exchanger 40 is mounted. Performing the above-mentioned input operation while moving to the appropriate position from above will enable the filter yarn 1 to be evenly introduced into the filtration tank 30. The present invention is not limited to the above-described embodiments, and the technical features of the present invention. Various modifications can be made within the range permitted by the idea.

As described above, according to the purified water filter sand exchanger of the present invention, the feed and discharge operation of the filtered sand is automatically performed, so that the replacement work can be performed quickly and easily, and dust and noise generated during the filter sand exchange can be reduced. In addition, the risk of safety accidents caused by manual work can be reduced, and the space required for work can be reduced since there is no need for a separate conveyor that takes up a lot of work space when the filter sand is added.

Claims (2)

A vacuum suction vehicle 10 for forming a vacuum pressure to inject the filtration yarn 1 into the filtration tank 30 or to control the discharge of the filtration yarn 1 from the filtration tank 30; and Vacuum hoses 21 and 22 having one side connected to the vacuum suction vehicle 10; And Water purification plant filter yarn exchange apparatus comprising a filter yarn exchanger (40) for discharging the filter yarn (1) is installed and suctioned in the vacuum hose (21, 22) to the outside or introduced into the filter tank (30). According to claim 1, wherein the filter yarn exchanger 40 is installed in the filtration tank 30 so as to be movable through the input mounting device 50, the input mounting device 50 is installed in the filtration tank (30) Water purification plant filter yarn exchange apparatus comprising a guide rail (51) and a cart (52) for slidably coupled to the guide rail (51) to mount the filter yarn exchanger (40).