KR101038467B1 - A automatic filter apparatus having remover of first precipitation - Google Patents

Abstract

PURPOSE: An automatic filtration system including a first grit removing apparatus is provided to separate foreign materials from raw water before flowing the raw water into a filtering chamber. CONSTITUTION: An automatic filtration system including a first grit removing apparatus comprises a grit removing tank(61) with a grit separating partition wall, connected to a main raw water line. The grit separating partition wall includes inflow holes on the edge with a downward guiding piece for guiding the flow of sand or foreign materials to the downward direction. The grit removing tank additionally includes a grit collecting tank(63) connected to a branch pipe(80) for selectively supplying raw water when discharging the collected sand or foreign materials trough a grit discharging line(64).

Description

A automatic filter apparatus having remover of first precipitation}

The present invention is to be supplied to the filtration chamber of the non-powered automatic filter while separating the sediment, such as sand, mud, etc. contained in the raw water to the primary to reduce the frequent backwashing process in the automatic filtration process to provide a smooth filtration treatment water An automatic filter having a primary sediment removal device.

In general, the filtration device to automatically filter the inflow of raw water, etc. from the valley,

A head tank is provided at a high position to store raw water such as valley water, and a back washing water storage chamber is formed at an upper portion and a filtration chamber is formed at an upper portion of a filter body located at a lower portion of the head tank. In the fruit, a filtration layer is formed in the middle part, and a connecting pipe communicating with the lower space part and the backwash water storage chamber is connected, and a cyphon tube is installed at the upper end of the filtration chamber, and the end thereof is positioned in the water seal chamber.

The raw water stored in the head tank is supplied to the upper part of the filtration chamber via the lower seal tank, and the supplied raw water is collected downward through the filtration layer and when the water level rises, the raw water flows into the backwash water storage chamber through the connecting pipe and is stored. When the water level rises, it is drained out.

In addition, if the deposit amount increases due to impurities such as sand in the filtration layer while the filtration process continues, the raw water supplied to the filtration chamber does not pass through the filtration layer. As the water level goes up, the raw water in the filtration chamber is drained due to the function of the siphon function, while the backwash water stored in the backwash water storage compartment flows down the filtration chamber through the connecting pipe and rises and rises above the filtration layer. The backwashing function of the filtration layer is made as the impurity trapped in the water rises up and drained out together through the cyphon tube, and the backwashing function is controlled by a separate automatic control device. Again, normal filtration is achieved.

By the way, the raw water supplied to the automatic filtration device is mainly applied to the valley water, etc. This valley water has a lot of various foreign matters are often contained in the filter layer has a problem that the cycle of the backwashing action is accelerated as it is easily trapped. As a result, the amount of filtered treated water that can be used by the user decreases as the filtered treated water is used as backwash water.

In addition, the accumulation of foreign matter in the filter layer increases, and even if it is frequently backwashed, some foreign matter that does not escape accumulate, which shortens the life of the filter layer, resulting in short replacement cycles and troublesome maintenance. There is this.

The present invention has been proposed in order to solve the above-mentioned conventional problems, and before the raw water is sent to the filtration chamber, the sand, mud, and other foreign matters contained in the raw water are firstly sedimented on the filtration layer by being supplied to the filtration chamber. It is an object of the present invention to provide an automatic filter having a primary sediment removal device that can greatly reduce the quality to maintain a long period of the reverse washing process in the automatic filtration process to provide a smooth filtration treated water.

The present invention will be described with reference to the solutions for implementing the above object.

A head tank is provided at a high position to store raw water. A back washing water storage chamber is formed at an upper portion and a filtration chamber is formed at a lower portion of the filter body located at a lower portion of the head tank. The filter layer is formed in the lower space portion and the connection pipe communicating with the backwash water storage chamber is connected, and the chief tube is installed at the upper end of the filtration chamber, the end of which is located in the water seal chamber,

The raw water stored in the head tank is supplied to the upper part of the filtration chamber via the lower seal tank, and the supplied raw water is collected downward through the filtration layer and when the water level rises, the raw water flows into the backwash water storage chamber through the connecting pipe and is stored. It is an automatic filtration device that drains to the outside when the water level rises.

In the raw water supply line for sending raw water to the head tank, the sediment removal means is provided so that various foreign matters such as sand, mud, etc. contained in the raw water are separated firstly before the raw water is sent to the head tank. It can be characterized in that the reduction.

In addition, the sediment removal means is provided with a sedimentation removal tank formed with a sedimentation separation plate therein while connecting the main raw water line to one side of the upper end so that the raw water is supplied in a rapid swirl flow, and the lowering portion of the sedimentation removal tank is provided to collect the sedimentation discharge A sedimentation collection tank having a line and a branch pipe connected to the main source water line so as to selectively supply raw water to the sedimentation collection tank are characterized in that it is configured.

According to the present invention as described above, by automatically separating the various foreign matters such as sand and mud contained in the raw water before the raw water is sent to the filtration chamber, it is supplied to the filtration chamber, thereby greatly reducing the settling material caught on the filtration layer. In the filtration process, the period of the backwashing process is greatly extended, thereby preventing waste of the filtration water due to the backwashing process and providing a smooth filtration water.

In addition, there is an effect that can extend the replacement cycle of the filter layer and the life of the filter layer and at the same time significantly reduce the maintenance cost.

1 is a general configuration of the present invention.
Figure 2 is a plan view of the sediment removal means in the present invention
Figure 3 is a partial cross-sectional view of the sediment removal means in the present invention

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

As shown in FIG. 1, the head tank 10 is provided at a high position to store the raw water flowing through the raw water supply line 11, and the filter main body 20 positioned below the head tank 10. The back washing water storage chamber 21 is formed in the upper portion of the filter chamber 22 is formed in the lower portion.

In the filtration chamber 22, a filtration layer 23 is formed at an intermediate portion thereof, and a connection pipe 25 communicating with the lower space 24 and the backwash water storage chamber 21 is connected to the filtration chamber 22. The upper end of the cyphonic tube 30 is placed in the end is located in the seal chamber (40).

The raw water stored in the head tank 10 is supplied to the upper portion of the filtration chamber 21 through the seal tank 50 provided below through the raw water discharge line 12 and the supplied raw water is the filtration layer 23. It is configured to be drained to the outside when the water rises in the drainage position while being stored and flowed into the backwash water storage chamber 21 through the connecting pipe 25 through the lower.

The raw water supply line 11 sending raw water to the head tank 10 is provided with a sediment removal means 60 to separate various foreign substances such as sand, mud, etc. contained in the raw water before the raw water is sent to the head tank 10. By doing so, it is possible to greatly reduce the deposition of foreign matter on the filter layer (25).

As shown in Figures 2 and 3, the sediment removal means 60 is connected to the main raw water line 70 for supplying raw water from the outside to one side of the upper end so that the raw water is supplied in a rapid swirl flow, the foreign material of the raw water introduced into the primary It is provided with a sedimentation removal tank 61 formed so as to filter, and the sedimentation removal tank 61 forms a sedimentation separating plate 62 which forms a hopper shape and does not introduce foreign substances having a specific gravity therein but only raw water flows in. .

The lower end of the sediment removal tank 61 is provided with a sedimentation collection tank 63 provided with a sedimentation discharge line 64 while collecting the sediment collected downward.

The sedimentation collection tank (63) is a branch pipe (80) connected to the main raw water supply line (70) to selectively supply the raw water to supply the raw water when the discharged collected sediment to the outside to smoothly discharge between the needles ), It can be equipped with an opening door on the outside for maintenance.

Inlet holes 62a are formed at appropriate intervals around the sedimentation separator plate 62, but the raw water is introduced from the bottom up, and the sand or foreign matter is downwardly directed to each inlet hole 62a. The raw water flowing in while forming a sharp turn is introduced from the bottom up through the inlet hole 62a to be introduced into the inside of the sedimentation separator plate 62, and the sediment is to be lowered to prevent the inflow of foreign substances.

Referring to the mutual operation state with respect to the immersion removal means 60 which is the main part of the present invention configured as described above,

When raw water, such as valley water, is supplied to the sediment removal tank 61 through the main raw water line 70, the raw water flows in while turning rapidly and the raw water is filled in the raw water. As it is introduced from the bottom through the inlet hole (62a) of the water), foreign substances included in the raw water are not allowed to flow down by the downward guide piece (62b) formed in the inlet hole (62a) due to the rapid flow and specific gravity. It is collected in the sedimentation collection tank 63 provided at the lower end of the sediment removal tank 61.

In addition, raw water from which foreign matters are first removed is introduced into the inside of the sedimentation separating plate 62 provided in the sedimentation removal tank 61, and as the water level rises, through the raw water supply pipe 11 to the filtration chamber 22 of the automatic filtration device. Since the raw water in which the foreign matter is first removed as it passes through the filtration layer 23 is greatly reduced than the conventional method of depositing the foreign matter on the filtration layer 23, the backwashing cycle is considerably longer and smoother. It is possible to provide filtered treated water.

That is, according to the present invention, by automatically separating the various foreign substances contained in the raw water before supplying the raw water to the filtration chamber, it is supplied to the filtration chamber 22, thereby greatly reducing the sedimentation material caught on the filtration layer 23, thereby automatically filtering. In order to prevent the waste of the filtered water during the backwashing process and to provide a smooth filtered water, the cycle of the backwashing process is considerably extended. It will be greatly reduced.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

60: removal of acupuncture
61: sediment removal tank 62: sedimentation separator
62a: inlet hole 62b: downward guide piece
63: sedimentation tank 64: sedimentation discharge line

Claims (3)

In the automatic filter for introducing the raw water, such as valley water, so that the filtration and backwashing is automatically performed, connect the main raw water line 70 for supplying raw water from the outside to one side of the upper part so as to supply the raw water filtered first with foreign substances, and In the automatic filter provided with the sedimentation removal tank 61 which provided the sedimentation separator plate 62,
Inlet holes 62a are formed at appropriate intervals around the sedimentation separator plate 62, but the raw water is introduced from the bottom up, and the sand or foreign matter is downwardly directed to each inlet hole 62a. Forming a; The lower end of the sediment removal tank 61 is provided with a sedimentation collection tank 63 to collect the sediment gathered downward, and the raw water is selectively discharged when the sediment collected in the sedimentation collection tank 63 is discharged through the sedimentation discharge line 64. Automatic filter equipped with a primary sediment removal device, characterized in that the branch pipe 80 connected to the main raw water supply line (70) to be supplied to the sedimentation collection tank (63). delete delete

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