KR101617123B1 - Agglomerating equipment of water treatment plant based on magnetic repulsive force - Google Patents

Abstract

The present invention relates to an aggregator installed to an aggregation tank of a water treatment plant. More particularly, the aggregator reduces rolling friction force of a roller of a driving unit which rotates an upper base joined with a shaft by applying a repulsive magnetic force in the opposite direction to gravity, and can smoothly rotate the shaft using a small motor with low-capacity, thereby achieving low power consumption and low level of noises. Further, the aggregator of the present invention can prevent water pollution caused by a drop of an oil or lubrication to the aggregation site due to the structure, and the wires do not get twisted by using a slip ring when a motor rotates along rails.

Description

Agglomerating equipment of water treatment plant based on magnetic repulsive force "

The present invention relates to a flocculator installed at a flocculation site of a water treatment plant,

Particularly, by reducing the rotational friction force by the repulsive force of the electromagnet, it is possible to use a low-capacity motor, prevent oil and lubricant from falling on the cohesive paper and prevent water from being contaminated, .

In general, the water treatment process in a water purification plant for producing tap water and supplying the water to the home includes a water storage tank 10 for stabilizing the water level fluctuation of the purified water taken from the water source as shown in FIG. 1, A coagulant 30 for mixing the purified water with the water treatment chemicals, a coagulant 30 for forming colloid agglomerated in the raw water chemically reacted with the water treatment chemicals in the coagulant 20, A filter paper 50 for filtering the raw water from which the colloid has been removed in the settling paper 40 and a filter paper 50 for filtering the filtered raw water filtered by the filter paper 50, And a purified water 61 which is supplied with sterilizing chemicals such as fluorine and the like to be finally purified and then supplied to a household.

At this time, a positive polymer coagulant such as PAC or Alum is injected into the coagulant 30 to increase the density of the colloid by stirring the purified raw water mixed with the drug. The coagulant generally includes the first coagulant 31, A second flocculation tank 32 and a third flocculation tank 33. The purified water is supplied from the first flocculation tank 31 to the second flocculation tank 32 and the second raw water is discharged from the second flocculation tank 32 And then sequentially transferred to the third flocculation tank 33.

While the raw water is being sequentially transferred from the first flocculation tank 31 to the third flocculation tank 33, the first flocculator 34 in the first flocculation tank 31 agitates the purified water with high rotation, In the two flocculation tank 32, the second flocculator 35 stirs the purified water before the middle float, and the third flocculator 36 stirs the purified water with a low rotation.

This is done by increasing the colloid density while gradually stirring the colloid in order to prevent breakage of the colloid.

3, in the conventional coagulant 1, the motor 2 installed at the upper portion is rotated (rotated) through the speed reducer 3, And the impeller 6 provided at the lower end of the shaft 4 stirs the purified water.

Since the conventional coagulator constructed as described above must use a large motor for rotating a large impeller, energy consumption is large, and the motor is large and heavy, so that it takes a lot of time and manpower to replace it, noise is large, There is a problem that the raw water is contaminated by falling.

Literature 1. Korea Patent Registration No. 10-0208747, "Condenser shaft sealing device of water treatment plant" Document 2: Korean Patent Application Publication No. 10-2006-29656, "Suspension Type Horizontal Condenser"

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an air conditioner capable of driving an impeller even by using a lightweight motor of low capacity, It is an object of the present invention to provide a water treatment plant flocculator using a magnetic force which is easy to maintain and repair.

In order to achieve the above object, a water treatment plant coagulator using a magnetic force according to the present invention comprises a lower base 101 installed and fixed on an upper portion of a flocculation tank, A shaft 109 having an upper end connected to the upper base 103 and extending through the lower base 101 and extending into the flocculation tank; A magnet provided opposite to the bottom surface of the base 103 and the upper surface of the lower base 101 to form a repulsive magnetic force therebetween and a driving unit coupled to the upper base 103 to rotate the upper base 103 The upper base 103 and the shaft 109 are rotated in a state that the frictional force is reduced by receiving the repulsive magnetic force upward from the lower base 101 so that a low capacity motor can be used Rock consists.

At this time, a slip ring 106 is provided on the upper base 103 to supply power to the motor 122 rotating around the shaft 109 so that the power line 105 is not twisted.

The driving unit is coupled to one end of the guide 108 and the other end of the guide 108 is coupled to the upper base 103 so that the driving unit is spaced a predetermined distance laterally of the shaft 109 .

The driving unit includes a motor 122, a roller 126 contacting the upper surface of the flocculation tank, and a power transmitting means for transmitting the rotational force of the motor 122 to the roller 126, (126) rotates and rotates the shaft (109).

A circular rail 113 is provided on the outer side of the lower base 101 and a roller 126 of the driving unit is configured to run along the rail 113 to thereby allow the roller 126 to run smoothly .

In addition, it is preferable that the shaft 109 of the lower base 101 is provided with a bearing 111 so that the shaft 109 is smoothly rotated.

The condenser for water treatment plant according to the present invention configured as described above can smoothly drive the impeller even with a small-capacity small-sized motor by reducing the friction of the roller by the magnetic force. Therefore, the power consumption can be greatly reduced, and the noise due to the motor driving can be reduced.

In addition, there is an advantage that maintenance of the motor can be easily performed by replacing the failed motor when the motor fails.

Further, it is possible to prevent the lubricating oil from falling into the coagulating tank and contaminating the purified water in advance, and by using the slip ring, it is possible to prevent the distribution line from being twisted although the motor rotates along the rail.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a water purification process in a water purification plant; Fig.
2 is a view showing a coagulant;
Figure 3 shows a conventional flocculator.
4 is a sectional view showing a flocculator according to the present invention.
5 is a perspective view showing a flocculator according to the present invention.
FIG. 6 is an exploded perspective view showing an exploded view of the flocculator according to the present invention. FIG.
7 is a plan view showing a flocculator according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, the present invention will be described in detail with reference to preferred embodiments of the present invention and the accompanying drawings, wherein like reference numerals refer to like elements.

It is to be understood that when an element is referred to as being "comprising" another element in the description of the invention or in the claims, it is not to be construed as being limited to only that element, And the like.

Hereinafter, an example in which a water treatment plant coagulator using a magnetic force is implemented will be described with reference to specific embodiments.

4 to 6, the water treatment plant coagulator 100 using the magnetic force according to the present invention comprises a lower base 101 installed on the upper part of the flocculation tank and a lower base 101 installed on the lower base 101, A shaft 108 which is fastened to the lower portion of the upper base 103 and stirs the purified raw water of the flocculation tank 103, 109 and an impeller 110.

An electromagnet 102 is installed on the upper part of the lower base 101. An upper base 103 is installed on the upper part of the lower base 101, A permanent magnet 104 is provided at a lower portion of the base 103 at a position corresponding to the electromagnet 102 of the lower base 101.

The electromagnet 102 is installed on the lower base 101 and the permanent magnet 104 is installed on the upper base 103. The permanent magnet 104 is installed on the lower base 101 and the permanent magnet is installed on the lower base 101, An electromagnet can be installed.

A pair of guides 108 are provided on the upper base 103. One side of the guide 108 is fastened to the upper base 103 and the other side of the guide 108 is provided with a driving unit.

A shaft 109 is fastened to the lower portion of the upper base 103, and the shaft 109 extends into the flocculation tank and an impeller 110 is formed at an end thereof.

The driving unit provided on the other side of the guide 108 rotates the guide 108 and rotates the shaft 109 and the impeller 110 to stir the purified raw water in the flocculation tank.

4, the shaft 109 of the lower base 101 is provided with a bearing 111 so that the shaft 109 can be smoothly rotated from the lower base 101 as a fixing member.

5, the driving unit includes a motor 122, a holder 121 for fixing the motor 122 to an end of the guide 108, rollers 126 provided below the holder 121, A drive pulley 123 and a driven pulley 124 respectively formed on the motor 122 and the roller 126 and the driving pulley 123 and the driven pulley 124 to drive the power of the motor 122 to the rollers 126 And a rail 113 for guiding the running of the roller 126. [0031]

A slip ring 106 is provided on the upper base 103 to supply power to the motor 122 rotating around the shaft 109. The slip ring 106 rotates together with the upper base 103 to supply power to the motor 122 while the power line 105 is not twisted. Since the slip ring 106 is a well-known technology, a detailed description thereof will be omitted.

Power is supplied to the motor 122 installed at the end of the guide 108 through the slip ring 106 and the motor power line 107 when power is supplied to the power line 105 under the control of a controller The motor 122 is driven.

When the motor 122 is driven, the drive pulley 123 provided on the shaft of the motor 1220 rotates and the driven pulley 124 connected to the drive pulley 123 and the belt 125 is rotated in conjunction with the rotation of the roller The driving unit rotates along the rails 113 provided on the outer side of the upper and lower bases 101 and 103.

As the roller 126 of the driving unit travels as described above, the guide 108 coupled with the driving unit rotates the upper base 103 and the shaft 109 installed below the upper base 103 rotates, The impeller 1100 installed at the end rotates to stir the purified water.

At this time, when the lower base 101 is fixed, the upper base 103 rotates to rotate the shaft 109. When a controller (not shown) applies power to the motor 122, A magnetic force is generated in the electromagnet 102 and corresponds to the permanent magnet 104 of the upper base 103 while the upper base 103 receives the repulsive magnetic force in the opposite direction of gravity.

When the repulsive force acts on the upper base 103 as described above, the repulsive magnetic force in the opposite direction of gravity acts on the roller 126 through the guide 108 and the holder 121, and the rolling friction of the roller 126 is reduced The power loss of the motor 122 is reduced and the shaft 109 can be smoothly rotated.

7, when one of the driving parts spaced apart by a predetermined distance 'r' from both sides of the upper base 103 travels the circular rail 113 with the force of 'F' 109 is F x r.

At this time, as F = m x g, the frictional force of the driving portion is decreased by the repulsive force as described above, and the F value is lowered. As a result, the rotation torque of the shaft 109 is lowered and smooth rotation can be achieved even by using a small-capacity small-sized motor.

In the embodiment of the present invention, a pair of guides 108 and a driving unit are formed on the upper base 103. However, the number of the guides 108 and the driving units may be plural.

In order to protect the raw water of the facility and the flocculation tank from foreign matter such as rainwater or dust, the cover 112 is covered as shown in FIG. 4 to protect the purified water of the facility and the flocculating tank from foreign matter.

The coagulator according to the present invention constructed as described above includes a permanent magnet and an electromagnet 102 formed between the upper base 103 and the lower base 101 to generate a repulsive magnetic force through the supply of power, It is possible to smoothly rotate the impeller 110 even if a small-capacity small-sized motor is used.

Since the low-capacity motor is used as described above, noise is reduced, power consumption is reduced, and maintenance and repair can be performed easily.

Further, since the motor 122 is located a sufficient distance from the hole of the flocculation tank into which the shaft 109 is inserted, it is possible to prevent the lubricating oil from falling into the flocculation tank and contaminating the clean water.

The technical idea of the present invention has been described through the above embodiment.

It will be apparent to those skilled in the art that various changes and modifications may be made to the embodiments described above from the description of the present invention.

Further, although not explicitly shown or described, those skilled in the art can make various modifications including the technical idea of the present invention from the description of the present invention Which is still within the scope of the present invention.

The above-described embodiments described with reference to the accompanying drawings have been described for the purpose of illustrating the present invention, and the scope of the present invention is not limited to these embodiments.

100: coagulator 101: lower base
102: electromagnet 103: upper base
104: permanent magnet 105: power line
106: Slip ring 107: Motor power line
108: guide 109: shaft
110: impeller 111: bearing
112: cover 113: rail
121: holder 122: motor
123: drive pulley 124: driven pulley
125: belt 126: roller

Claims (6)

A lower base 101 fixed to the upper portion of the flocculation tank;
An upper base 103 installed to be rotatable about an axis of the shaft 109 above the lower base 101;
A shaft 109 having an impeller 110 at a lower end thereof, an upper end coupled to the upper base 103 and extending into the coagulation bath through the lower base 101;
A magnet disposed opposite to the bottom surface of the upper base 103 and the upper surface of the lower base 101 to form a repulsive magnetic force;
And a driving unit coupled to the upper base 103 to rotate the upper base 103. The upper base 103 and the lower base 103 receive the repulsive magnetic force upward from the lower base 101, A water treatment plant coagulator using a magnetic force configured to rotate a shaft (109).
The method according to claim 1,
Wherein the upper base 103 is provided with a slip ring 106 to supply power to a motor 122 rotating around a shaft 109 so that the power line 105 is not twisted.
The method according to claim 1,
The driving unit is fastened to one end of the guide 108 and the other end of the guide 108 is fastened to the upper base 103 so that the driving unit is moved to a predetermined position spaced laterally of the shaft 109 Water treatment plant coagulant using.
4. The method according to any one of claims 1 to 3,
The driving unit includes a motor 122, a roller 126 contacting the upper surface of the flocculation tank,
And a power transmitting means for transmitting the rotational force of the motor (122) to the roller (126).
5. The method of claim 4,
A circular rail 113 is provided on the outer side of the lower base 101,
And the roller (126) of the driving unit is configured to travel along the rail (113).
The method according to claim 1,
A water treatment plant flocculator using a magnetic force provided with a bearing (111) in the penetration portion of the shaft (109) of the lower base (101).

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