KR200196413Y1 - A precipitator using inclined panel of high speed condensation - Google Patents

Abstract

The present invention is efficient for the coagulation sedimentation equipment required for various industrial wastewater, pretreatment of aggregate and industrial water at construction sites, and molten water treatment facilities, which are the main culprit of water pollution. The present invention relates to an integrated high speed flocculation inclined plate precipitation apparatus, characterized in that the various devices are compactly constructed so that the reaction, aggregation, and precipitation can be simultaneously performed in one tank.

A hollow pipe-shaped reaction part which draws raw water and a polymer flocculant at the same time in the direction of gravity to cause reaction and agglomeration of influent water;

The reaction part is located in the center, guides the influent completed the aggregation reaction in the opposite direction of gravity to rise along the outer periphery of the reaction part to be output from the upper, and sedimentation of the sludge through the inclined plate while the influent flows in the upper direction A precipitation section;

Located at the bottom of the settling portion, characterized in that it comprises a hopper-type concentrator for collecting the sludge filtered from the settling portion.

Description

A Precipitator Using Inclined Panel of High Speed Condensation

The present invention relates to an integrated high-speed cohesive ramp sedimentation apparatus proposed to cope with wastewater from pollution sources such as industrial wastewater and aggregates in construction sites, which are the main causes of water pollution. The present invention relates to an integrated high-speed cohesive gradient plate precipitation apparatus comprising a compacting apparatus for reaction, coagulation, and precipitation.

In general, it is the main culprit of water pollution caused by various industrial wastewater, aggregate washing wastewater and domestic sewage in construction sites.

In order to efficiently perform the most basic flocculation load treatment of various water treatments, the general treatment apparatus is designed to be compact, so that anyone can easily and easily operate the system while minimizing the installation cost.

In the conventional wastewater treatment system, the collection tank, the coagulation tank, the sedimentation tank, etc. are installed in parallel arrangement as separate devices, so that the appearance of the device becomes large and the manufacturing cost increases, and the manufacturing cost increases, It has a disadvantage that it takes a lot of equipment cost, and it is not easy to operate, such as waste water treatment can not be done immediately.

That is, the conventional wastewater treatment flow, as shown in Figure 1, the raw water storage unit 10 for storing the raw water, the coagulation auxiliary tank 20, the coagulation assistant tank for coagulating the foreign matter of the raw water and the raw water The reaction tank 30 receives raw water from the storage unit 10 and the coagulation aid from the coagulation auxiliary tank 20, and adds the action of the rotary blade to cause the reaction with the reaction tank 30. Agglomeration tank 40 for aggregating by adding the action of the rotary blade by receiving the influent water, a settling tank 50 for filtering the sludge by receiving the inflow water from the coagulation tank 40, and the sludge filtered by the settling tank 50 It is shown that it comprises a condensing tank 60 for concentrating and a filter press 70 for cake the concentrated sludge.

On the other hand, the precipitation device (A) for agglomeration and precipitation of the chemically treated influent water is provided with a flocculation tank 40 and the precipitation tank 50 separately, the appearance of the device can be very large It has only drawbacks.

That is, the conventional wastewater treatment apparatus has a sedimentation tank 50 having a relatively large appearance compared to other components, and has a flocculation tank 40 separately therein, and thus the space utilization is not appropriate.

In addition, since the housing diameter of the sedimentation tank 50 must be very large, the required area is large, and there is a limit in increasing the angle of the lower surface of the sedimentation tank while maintaining the large diameter as described above. It is a tough structure.

In addition, in the flocculation tank 40, since the rotation apparatus 1 is used separately so that the coagulant aid and the raw water can react smoothly, the equipment is complicated and the failure probability of the rotation apparatus is high, which makes it difficult to maintain.

The reason for using the rotary device (1, 2) in the flocculation tank 40 and the settling tank 50 in the above is to induce the chemical reaction of the foreign matter more reliably by rotating the inflow of the flocculation aid is added can be easily made wastewater treatment To make it work.

Therefore, in the related art, since the flocculation tank and the precipitation tank, which constitute the sedimentation apparatus, must be provided separately, it takes up a lot of space and causes a problem of cost increase.

The present invention is to solve the above problems, it is possible to supply a low cost by compacting the compaction tank and sedimentation tank forming the sedimentation unit, and efficient in small-scale pollution sources such as industrial wastewater and aggregate washing wastewater Its purpose is to make it easier for anyone to operate while contributing to environmental protection.

As a means for achieving the above object,

The present invention provides a hollow reaction unit for mixing the raw water and the flocculant in the center of the precipitation section for filtering sludge, and inclined plate at the outer circumference of the reaction section and the inner circumference of the precipitation section to separate the sludge from the influent water aggregated through the reaction section. And install a hopper-type concentrator to collect the sludge in the lower part of the sedimentation unit is characterized by configuring the sedimentation device.

1 is a block diagram of a general wastewater treatment apparatus.

2 is a block diagram of the wastewater treatment apparatus of the present invention.

3 is a detailed view of the main part of the present invention.

Explanation of symbols on the main parts of the drawings

100: reaction unit 120: inclined plate

130: precipitation section 140: concentration section

The integrated high-speed flocculent settler of the present invention is a circular settler, the diameter of the settler is smaller than that of the conventional settler, and the height is maintained. It has an integrated structure consisting of V-NOTCH for flow measurement, sludge drawing pipe, treated water discharge pipe, reaction water collecting pipe, sludge collecting pipe, ladder and scaffold.

Precipitation apparatus of the present invention made as described above is the raw water and the flocculant is naturally mixed by the sliding cone and the baffle plate consisting of several stages of the reaction chamber (Reaction Chamber) inside the coagulation reaction is made. , The reaction water in which the flocculation reaction takes place is an upflow sedimentation device in which precipitation occurs while moving from the lower part of the sedimentation basin to the upper part.

In addition, the settling efficiency of the reaction water moving upstream is increased by several inclined plates.

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

2 is a schematic view of the present invention, as shown in the precipitation apparatus of the present invention,

A hollow pipe-shaped reaction part 110 for introducing raw water and a polymer flocculant at the same time into a gravitational direction so that reactions and agglomeration of influent water occur;

The reaction unit 110 is located in the center, guides the inlet water after the reaction and coagulation is completed from the bottom to the upper direction to rise along the outer periphery of the reaction unit 110 to be output from the top, the inlet water in the upper direction Sedimentation unit 130 for filtering the sludge through the inclined plate 120 while moving to;

Located in the lower portion of the precipitation unit 130, and comprises a hopper-type concentrator 140 for collecting the sludge filtered from the precipitation unit 130.

The reaction unit 110 includes a plurality of sliding cones 111 for guiding the liquid mixed with the raw water and the polymer and a baffle plate 112 for controlling the flow of the liquid so that the raw water and the polymer coagulant are mixed well. It is done by installation.

2 shows that the baffle plate 112 of the present invention is located above the support 113.

In addition, FIG. 3 shows that the reaction unit 110 is fixed by the support 114, and the radial arrow indicates that the filtered wastewater is discharged to the outside through the groove formed at the outer periphery.

The present invention configured as described above, first, the inlet water and the polymer coagulant is administered to the reaction unit 110, the polymer coagulant reacts with contaminants in the influent water, such a reaction is a sliding cone 111 inside the reaction unit ) And the baffle plate 112 can be more reliably made.

That is, one side is attached to the outer periphery of the reaction unit 110 and the other side is a sliding cone 111 inclined downward in the reaction unit 110 is located when the liquid mixed with the inflow water and the polymer coagulant is introduced It is guided in the direction, the baffle plate 112 is present in the lower portion of the sliding cone 111 so that the guided liquid is mixed while colliding so that the influent and the polymer flocculant is mixed.

In addition, the sliding cone 111 and the baffle plate 112 are alternately arranged at regular intervals so that the liquid passing through the one sliding cone 111 and the baffle plate 112 is again located at the lower sliding cone and baffle. A plurality of sliding cones 111 and a baffle plate 112 are installed to allow the plate to pass therethrough such that the influent and the polymer coagulant react sufficiently.

In the inflow water is moved to the lower side according to the pump and the discharge action of the discharge, and naturally mixed with the polymer flocculant, when there is not much contaminants sliding cone 111 and baffle plate 112 in the reaction unit 110 Of course, the influent and the polymer flocculant can sufficiently react without it.

When the inlet water passes through the hollow reaction part 110 as described above, it is moved to the upper part by the outer periphery of the reaction part 110 by being pushed by the external pressure.

At this time, the slant plate 120 is installed on the inner circumferential edge of the precipitation unit 130 and the outer edge of the reaction unit to remove the sludge included in the influent, and the sludge is formed on the bottom surface of the inclined plate 120 while the inflow water is moved upward. As the sediment is separated, the clean water is allowed to rise.

That is, the inflow water passing through the hollow part of the reaction part 110 rises in the opposite direction of gravity from the precipitation part 130 by the pressure applied from the outside, and is formed in the precipitation part 130 and the reaction part 110. Due to the influence of the inclined plate 120, the sludge does not move forward, only the clean water passes, and the plurality of such inclined plates 120 are filtered, so that the sludge can be sequentially filtered as the primary secondary secondary.

The sludge is dropped down by its own weight, all are collected in the hopper-type concentrator 140 installed in the lower portion of the precipitation unit 130, a certain amount of sludge is collected in the hopper-type concentrator 140 When it is lost, gravity is concentrated and sent to a sludge treatment apparatus such as a dehydrator.

Meanwhile, in FIG. 2, the first valve V1 checks the wastewater reaction state inside the reactor 110, and the second valve V2 checks the state of the wastewater passing through the valve plate 112 and the accumulation of sludge. Observationally, the third valve V3 is allowed to be discharged to the outside to remove the concentrated sludge.

Therefore, conventionally, the reaction tank, the flocculation tank, and the settling tank are each provided separately, and the rotary device by the motor operation is provided for the smooth separation of the sludge, but there is a problem of inefficiency and cost increase in space use. By using the water tank, reaction, flocculation and sedimentation can be carried out using a single water tank, thus improving the efficiency of space use and reducing the cost of manufacturing the equipment, and also eliminating sludge removal without the use of rotating equipment. There is an advantage to simplifying maintenance.

As described above, the present invention is designed to compactly control the reaction, flocculation, and precipitation in one tank so that it can be supplied at a low price, and can be efficiently supplied from sources of pollution such as industrial wastewater and bone washing wastewater. It provides the effect of contributing to environmental protection by making it easy for anyone to operate while coping.

Claims (2)

A hollow pipe-shaped reaction part for introducing raw water and a polymer flocculant at the same time into a gravity action direction so that reaction and agglomeration of influent water occur; The reaction part is located in the center, guides the influent completed the reaction and flocculation in the opposite direction of gravity action to rise along the outer periphery of the reaction part to be output from the top, the sludge through the inclined plate while the inflow is moving in the upper direction A settling portion for filtering; Located in the lower portion of the settling portion, integral high-speed cohesive gradient plate settling device, characterized in that consisting of a hopper-type concentrator for collecting the sludge filtered from the settling portion. The method of claim 1, The reaction unit is provided with a sliding cone for guiding a liquid mixed with raw water and a polymer, and a plurality of baffle plates for controlling the flow of the liquid so that the raw water and the polymer coagulant are mixed well. Device.