KR100731721B1 - An automatic cleaner of floating matters - Google Patents

Abstract

Automatic float cleaner in the tank according to the present invention comprises a blower for generating a negative pressure in the pipeline connected by the rotational force to allow the float and purified water to move into the pipeline; A guide rail for moving the blower in a straight direction within a predetermined range in the tank; A limit switch for specifying both ranges of movement when the blower moves on the guide rail; A suction pipe which is formed in a Y shape and collects a float and a small amount of purified water collected at a predetermined position on the tank; A first connecting pipe for sucking the suspended matter and the small amount of purified water sucked from the suction pipe; A second connector for sucking float and purified water from the two first connectors; A discharge port for discharging the suspended matter sent from the second connecting pipe and the suctioned small amount of purified water into a predetermined channel by earth output generated by the rotational force of the blower; A drive motor for driving the blower; Agglomerator blades installed in the water tank to rotate in a predetermined direction so that the water surface is formed in a predetermined direction, and the floats on the water surface are uniformly collected toward a certain surface; And a bearing part for installing a plurality of support parts for supporting the plurality of agglomerate wings in the tank and allowing the agglomerator blades to rotate on the respective support parts.

Water tank, float, auto cleaner, blower, impact roller, A / C roller, gear motor, guide rail, load balancer, agglomerator blade.

Description

An automatic cleaner of floating matters

1 is a perspective view showing the configuration of a preferred embodiment of the automatic floating object cleaner according to the present invention.

2 is a plan view of the float automatic cleaner of FIG.

3 is a front view of the float automatic cleaner of FIG.

4 is a side view of the float automatic cleaner of FIG.

FIG. 5 is a sequence circuit diagram for controlling the float automatic cleaner of FIG. 1.

Explanation of symbols on the main parts of the drawings

10: Blower 20: Impact roller

30: A / C roller 40: geared motor

50: guide rail 60: weight

70: stainless steel box 80: limit switch

90: second connector (φ90A) 100: vacuum cleaner suction pipe

110: first connector (φ65A) 120: drive motor

130: discharge port 140: suspended matter

150: flocculator blade 160: bearing part

Patents in Korea relating to the prior art in this field include the registration of Park Sang-bong, Utility Model No. 20-0260139, "Floating material breaker", registered on December 26, 2001, and Pyeong-Gyeongsu Co., Ltd., registered on 24 November 2003 Utility Model No. 20-0335071 has a "water treatment device."

'139 is mainly related to a floating material breaker that can purify green water and various foreign substances in domestic water such as drinking water, washing water, and bath water used at home. The present invention relates to a technology for treating primary water and receiving the primary treated water in each generation so as to be suitable for drinking water. In particular, '071 has the advantage of preventing the scale generation of the pipe by controlling the lime contained in the water, and keep the mineral as it is.

The present invention relates to an apparatus for removing suspended solids in a water treatment plant, and aims at efficient management and clean water treatment by efficiently discharging the suspended solids generated and accumulated in the final stage inside the flocculator in the purified water treatment plant.

In the conventional float remover, when a float is loaded inside the agglomerator, a pipeline is opened to remove the float. However, the amount of water flowing through the pipeline along with the suspended solids has a disadvantage in that the efficiency of water purification is reduced because the water is reprocessed again.

Therefore, it is desirable to introduce a float cleaning system that can reduce the amount of water wasted during the flocculation step and remove suspended matter more efficiently.

In addition, the introduction of a technology that can prevent the reverse circulation of water to produce clean purified water. In addition, it is required to reduce the cost of purified water production.

The present invention devised to solve the problems of the prior art as described above is an object of the present invention to provide a floating automatic cleaner that can supply clean water resources.

Other objects and advantages of the present invention will become more apparent from the following detailed description of the invention and the accompanying drawings.

1. Composition of invention

Automatic float cleaner in the tank according to the present invention comprises a blower for generating a negative pressure in the pipeline connected by the rotational force to allow the float and purified water to move into the pipeline; A guide rail for moving the blower in a straight direction within a predetermined range in the tank; A limit switch for specifying both ranges of movement when the blower moves on the guide rail; A suction pipe which is formed in a Y shape and collects a float and a small amount of purified water collected at a predetermined position on the tank; A first connecting pipe for sucking the suspended matter and the small amount of purified water sucked from the suction pipe; A second connector for sucking float and purified water from the two first connectors; A discharge port for discharging the suspended matter sent from the second connecting pipe and the suctioned small amount of purified water into a predetermined channel by earth output generated by the rotational force of the blower; A drive motor for driving the blower; Agglomerator blades installed in the water tank to rotate in a predetermined direction so that the water surface is formed in a predetermined direction, and the floats on the water surface are uniformly collected toward a certain surface; And a bearing part for installing a plurality of support parts for supporting the plurality of agglomerate wings in the tank and allowing the agglomerator blades to rotate on the respective support parts.

The present invention is a gear motor for obtaining a rotational force; An impact roller connected to the rotating shaft of the gear motor by a sprocket chain; And an A / C roller which is bitten at a certain ratio of the impact roller and the gear ratio to allow the blower to move on the guide rail at a desired speed.

The present invention is a box of stainless steel to make a predetermined position by using the buoyancy so that the suction pipe is located at a constant height above the water surface in order to maintain a constant gap on the water surface to automatically suck the float into the suction pipe of the cleaner ; And a plurality of load machines installed on the top of the box to obtain a desired buoyancy.

The present invention preferably further comprises a sequence control circuit for sequentially controlling the operations of the various electrical devices. In addition, the sequence control circuit is preferably configured using a programmable logic controller (PLC).

2. One preferred embodiment

Float automatic cleaner of the present invention relates to a cleaner for automatically removing the float floating on the purified water when loading the float in the process of producing clean water, the configuration is a guide rail (50) outside the agglomerator as shown in FIG. ), The blower 10, the impact roller 20, the A / C roller 30, the first connector 110, the second connector 90, the vacuum cleaner suction pipe 100, made of stainless steel The box 70 is provided. At this time, the box 70 is floating on the water surface by buoyancy.

In addition, in order to automatically suck the float into the suction pipe 100 of the cleaner, it is preferable that the interval between the float on the water surface is constant, so that the load level 60 is installed on the upper portion of the box 70 to adjust the water level.

The blower 10 body is indirectly connected to the gear motor 40 to be powered, and the impact roller 20 is connected to the sprocket chain so that the blower 10 can reciprocate left and right along the guide rail 50. Can be.

And a limit switch 80 is installed at the corners of the left and right ends of the guide rail 50 to allow the system to automatically recognize the range of the left and right reciprocating motion of the blower (10). This also makes it possible to evenly distribute the suspended matter.

 Now with reference to the accompanying drawings, the operation principle of the floating automatic cleaner according to the invention will be described in detail.

Figure 2 is a cross-sectional view of the automatic cleaner according to the present invention shows a coagulation step that serves to agglomerate and precipitate the suspended solids in the step divided into several stages. At this time, the float 140 is collected at one end (downward in Figure 2) due to the flow of purified water formed by the rotation of the agglomerator wings 150. In this example, a flocculator is installed. 4 shows the wings of the agglomerator in more detail.

The agglomerator blade 150 is formed by connecting a plurality of long rods (four in this example) as shown in FIG. 2, and these wings are formed by symmetrically connecting the axis of rotation, and these wings are agglomerated. Four units are installed at right angles to each other. The wing is composed of rods, and there is a lot of space between the rods so that the flocculator wing 150 rotates in water, but does not cause a lot of flow of purified water, but causes the flow of water only enough to cause the float to gather to one side, where the flow of purified water This even effect is caused.

In FIG. 3, the suspended solids are sucked through the suction pipe 100 located on the surface where the suspended solids are collected to one side by the flow of purified water. At this time, the suction pipe 100 reciprocates between the two limit switches along the guide rail 50 and sucks the float therebetween.

At this time, by installing the appropriate number of load 60 on the box 70 to adjust the water level. That is, if the water level is too high, the position of the suction pipe 100 must also be adjusted to the water level, thereby reducing or eliminating the number of load units 60 so that the suction pipe 100 can effectively suck the float 140. On the contrary, if the water level is too low, it is necessary to increase the number of the load 60 to lower the position of the suction pipe 100.

In FIG. 3, the four columns at the bottom of the figure serve as the support for bearings required when the agglomerator blades rotate. And 160 is a bearing portion of the agglomerator blade 150.

Meanwhile, in FIG. 1, the gear motor 40 is connected to the impact roller 20 of the body of the blower 10 by a sprocket chain so as to allow the blower 10 to rotate left and right along the guide rail 50. . In this example, the gear ratio of the impact roller 20 and the A / C roller 30 is 5: 1, and by adjusting the gear ratio, the speed at which the blower 10 moves on the guide rail 50 can be adjusted. And the A / C roller 30 serves to allow the blower 10 to move well over the guide rail (50).

The drive motor 120 is directly connected to the rotation axis of the blower 10 serves to provide a rotational force to the blower 10. The blower 10 rotates while reciprocating from side to side along the guide rail 50 to suck the float 140 and a small amount of purified water through the two Y-shaped suction pipes 100, thereby connecting the first connecting pipe 110 and the second. It serves to discharge to a separate tank through the discharge port 130 via the connecting pipe (90).

In the present embodiment, the suction pipe 100 is installed at both sides of the box 70, and these suction pipes 100 are connected to the first connection pipe 110 and finally blower through the second connection pipe 90. It is connected to the inlet of (10). As the discharge port 130 of the blower 10, the suspended matter sucked through the suction pipe 100 and a small amount of purified water are discharged.

And as shown in Figure 4 is a large flocculator blade is installed in the tank to cause the flow of the water by the rotation and the flow is generated at this time the flow of the water is made uniform by the configuration of the wing, thereby forming a floating material uniformly This will help the automatic cleaner to operate. In addition, when the float is sucked through the suction pipe 100, as well as a small amount of water is sucked together. The reason for doing so is to prevent the suspension of suspended solids from repeatedly removing the suspended solids from the water containing fine suspended solids repeatedly.

On the other hand, the sequential control of the above components is performed by the sequence control circuit as shown in FIG. In this case, the actual implementation of the sequence control circuit is preferably made using a programmable logic controller (PLC) or the like. The circuit of FIG. 5 is easy to implement for those skilled in the art and will not be described.

As described above, the present invention may be variously modified and may take various forms, and only the specific embodiments thereof are described in the detailed description of the present invention. It is to be understood, however, that the present invention is not limited to the specific forms mentioned in the detailed description of the invention, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

The effect expected from the present invention is that the float and the small amount of water floating on the water are absorbed together, thereby reducing the reverse circulation of water, thereby improving the productivity of clean purified water and reducing the cost of producing clean purified water. .

Claims (5)

A blower for generating negative pressure in the pipeline connected by the rotational force to allow the float and the purified water to move into the pipeline; A guide rail for moving the blower in a straight direction within a predetermined range in the tank; A limit switch for specifying both ranges of movement when the blower moves on the guide rail; A suction pipe which is formed in a Y shape and collects a float and a small amount of purified water collected at a predetermined position on the tank; A first connecting pipe for sucking the suspended matter and the small amount of purified water sucked from the suction pipe; A second connector for sucking float and purified water from the two first connectors; A discharge port for discharging the suspended matter sent from the second connecting pipe and the suctioned small amount of purified water into a predetermined channel by earth output generated by the rotational force of the blower; A drive motor for driving the blower; Agglomerator blades installed in the water tank to rotate in a predetermined direction so that the water surface is formed in a predetermined direction, and the floats on the water surface are uniformly collected toward a certain surface; And And a bearing part for installing a plurality of support parts for supporting the plurality of agglomerate blades in the tank and allowing the agglomerator blades to rotate on the respective support parts. The method of claim 1, A gear motor for obtaining torque; An impact roller connected to the rotating shaft of the gear motor by a sprocket chain; And And an A / C roller which is bitten at a certain ratio of the impact roller and the gear ratio to allow the blower to move on the guide rail at a desired speed. The stainless steel according to claim 1, wherein the suction tube is made of a buoyant force so that the suction tube is positioned at a constant height above the surface of the water to keep the float on the surface in order to automatically suck the float into the suction tube of the cleaner. Boxes of steel material; And It is installed on the top of the box, characterized in that it further comprises a plurality of loads to obtain the desired buoyancy, floating automatic cleaner. According to claim 1, characterized in that it further comprises a sequence control circuit for sequentially controlling the operation of the various electrical devices, the floating automatic cleaner. The float automatic cleaner according to claim 4, wherein the sequence control circuit is configured by using a programmable logic controller (PLC).

Images