KR20100083346A - Floating sensor having two detachable body - Google Patents

Abstract

PURPOSE: A floating sensor of two detachable bodies is provided to change based on waste water level and to accurately measure pH value of waste water. CONSTITUTION: A floating sensor of two detachable bodies comprises: a guide rail(110) which is upwardly and downwardly extended from the inside of waste water bath; a float unit(120); a float unit which is movably connected to the guide rail; and a sensor(130) which is fixed to the float unit. The float unit comprises: an upper float unit(120a); a lower float unit(120b) which is coupled to the upper float unit by bolt; a traveling guider(124a,124b) which moves up and down; a plurality of weight plumbs(121); a fixation bolt(122); and a packing unit(123).

Description

2-split structure floating sensor {FLOATING SENSOR HAVING TWO DETACHABLE BODY}

The present invention relates to a two-split floating sensor, and more particularly, it is possible to change the position of the sensor according to the level of the wastewater by using the float function of the float portion, so that the pH value of the wastewater even when the level of the wastewater treatment tank is low. The present invention relates to a two-part floating sensor that can accurately measure.

1 is a perspective view illustrating an installation state of a fixed pH sensor mounted in a wastewater treatment tank according to the prior art, and FIG. 2 is a schematic view of an installation of a fixed pH sensor mounted in a wastewater treatment tank at low water level.

As shown in FIG. 1 and FIG. 2, the wastewater treatment tank 10 includes a sludge stirrer 20 for stirring the sludge 1 and a fixed pH sensor 30 for measuring the pH value of the wastewater in the wastewater treatment tank 10. ) Is installed.

As shown in FIG. 2, the fixed pH sensor 30 is positioned about 30 cm above the bottom of the wastewater treatment tank 10 and is installed to extend up and down along the wall surface of the wastewater treatment tank 10. At this time, the fixed pH sensor 30 is fixed to the wall surface of the wastewater treatment tank 10 so as to measure the pH value of the wastewater at the same point irrespective of the level of the wastewater 2 in the wastewater treatment tank 10.

On the other hand, when the water level in the wastewater treatment tank 10 is low, as shown in "A" of FIG. 2, the fixed pH sensor 30 is generally sludge 1 deposited on the bottom of the wastewater treatment tank 10. Came in contact with At this time, the fixed pH sensor 30 did not measure the pH value of the wastewater 2, but often measured the pH value of the sludge 1 having a higher pH value than that of the wastewater 2.

In general, when the fixed pH sensor 30 incorrectly measures the pH value, when the pH value of the waste water is accurately measured, the amount of the pH adjuster (hydrochloric acid, caustic soda, etc.) introduced into the waste water treatment tank 10 is increased. When the pH value of the wastewater is incorrectly measured, the amount of the pH adjuster introduced into the wastewater treatment tank 10 increases, thereby increasing the wastewater treatment cost.

In addition, after the first wastewater treatment, when the second wastewater treatment, the amount of purified water and pH adjuster introduced into the second wastewater treatment tank is increased, and there is a problem that the amount of wastewater increases as the amount of purified water increases.

In addition, an increase in the amount of wastewater is a deterrent to the environment.

Therefore, the present invention has been made to solve the above problems, the present invention is to mount the sensor unit in the float having a floating function to change the position of the sensor unit in accordance with the water level of the waste water, the bottom of the waste water treatment tank An object of the present invention is to provide a two-part floating sensor that prevents contact of the sludge with the sediment and prevents the pH value of the wastewater from being accurately measured.

In addition, an object of the present invention is to provide a two-split floating sensor that facilitates the installation change of the weight and easily adjusts the floating height of the float by making the structure of the float part a vertically divided structure.

In addition, the present invention is a two-segment structure floating sensor that can reduce the waste water treatment cost by reducing the input amount of the pH adjuster introduced into the wastewater treatment tank, the amount of purification and wastewater input into the secondary wastewater treatment tank during the second wastewater treatment. It is intended to provide.

The present invention is a guide rail installed to extend up and down inside the wastewater treatment tank; A float portion which is connected to the guide rail so as to be movable up and down and is floating; And a sensor unit fixed to the float unit.

The float portion of the present invention, the upper float portion; A lower float portion bolted to the upper float portion; And a traveling guider, one end of which is fixed to the float portion while being fitted to the bolt and the other end of which is connected to the guide rail and moves up and down of the guide rail according to the floating height of the float portion.

The float portion of the present invention, the upper float portion having a first concave portion; A lower float portion having a second recess and bolted to the upper float portion, wherein the lower float portion forms an inner space by the first recess and the second recess; And a plurality of weights installed at a lower portion of the lower float portion in the inner space to adjust the floating height of the float portion. And a weight fixing bolt for fixing the plurality of weights to the lower float portion.

In addition, the sensor portion of the present invention is installed through the float portion, the weight is annular surrounding the sensor portion, the inner space is installed between the sensor portion and the weight, to prevent the movement of the sensor portion, the fluid in the waste water treatment tank It characterized in that it comprises a packing to prevent the flow into the interior space.

In addition, it is preferable that the sensor part of this invention is a pH sensor.

On the other hand, the present invention is a two-segment structure floating type sensor for use mounted on a guide rail installed inside the wastewater treatment tank, the upper float portion having a first recessed portion, and the second floated portion, the upper float portion and bolt coupling A float portion having a lower float portion defining an inner space by the first recess and the second recess, the float portion being connected to the guide rail so as to be movable up and down; A sensor unit fixed to the float unit; A traversing guider, one end of which is fixed to the float portion while being fitted to the bolt, the other end of which is connected to the guide rail and moves up and down of the guide rail according to the floating height of the float portion; A plurality of weights installed in a lower portion of the lower float portion in an annular shape surrounding the sensor portion in the inner space to adjust the floating height of the float portion; A weight fixing bolt for fixing the plurality of weights to the lower float portion; And a packing part installed between the sensor part and the weight in the inner space to prevent the movement of the sensor part and to prevent the fluid in the wastewater treatment tank from being introduced into the inner space.

The effects of the present invention configured as described above are as follows.

The first effect of the present invention, by mounting the sensor portion in the float portion to change the position of the sensor portion in accordance with the water level of the waste water, it is possible to prevent the contact of the sludge deposited on the bottom of the waste water treatment tank and the sensor portion, thereby The pH value of the waste water can be measured accurately.

The second effect of the present invention is that the structure of the float portion is divided up and down, so that the installation weight of the weight can be easily changed, whereby the float height of the float portion can be easily adjusted.

According to the third effect of the present invention, by accurately measuring the pH value of the wastewater, the sensor unit can reduce the amount of the pH adjuster introduced into the wastewater treatment tank, thereby reducing the wastewater treatment cost consumed in the wastewater treatment.

The fourth effect of the present invention, by accurately measuring the pH value of the primary wastewater during the primary wastewater treatment, it is possible to reduce the amount of purification and secondary wastewater introduced into the secondary wastewater treatment tank during the secondary wastewater treatment. To ensure that In addition, this is to reduce the waste water treatment costs to be used in the waste water treatment.

The fifth effect of the present invention is to reduce the amount of the pH adjuster input, the amount of purified water, and the amount of waste water to be minimized so as to minimize the environmental inhibitory factor.

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

3 is a perspective view illustrating an installation state of a two-split floating sensor mounted on a wastewater treatment tank according to an embodiment of the present invention. 4 is a cross-sectional view of a two-split floating sensor according to an embodiment of the present invention. FIG. 5 is a cross-sectional view illustrating a two-split floating sensor mounted in a wastewater treatment tank at a low water level according to an embodiment of the present invention.

As shown in FIGS. 3 to 5, the two-split floating sensor 100 according to the present invention includes a guide rail 110, a float part 120, and a sensor part 130. The two-split floating sensor 100 is a device capable of changing the position of the sensor unit 130 according to the level of the fluid 2 of the wastewater treatment tank 10 by using the floating function of the float unit 120. . In addition, the two-split floating sensor 100 can easily change the number of the plurality of weights 121 due to the vertical split structure of the float portion 120, the float according to the water level of the wastewater or the specific gravity of the wastewater The floating height of the part 120 can be adjusted arbitrarily.

The guide rail 110 is installed to extend up and down inside the wastewater treatment tank 10. In the present embodiment, the guide rail 110 is preferably made of a pair of guide rails, but is not limited thereto, and may be made of a single guide rail or three or more guide rails within a range apparent to those skilled in the art. .

The sensor unit 130 is installed through the float unit 120. The sensor unit 130 is a member capable of measuring the physical properties of the fluid 2 in the wastewater treatment tank 10. In this embodiment, the sensor unit 130 is preferably a pH sensor. However, the sensor of the sensor unit 130 is not limited to the pH sensor, and various sensors may be used within a range apparent to those skilled in the art according to the physical properties of the fluid to be measured.

Meanwhile, the float part 120 includes an upper float part 120a, a lower float part 120b, a plurality of weights 121, weight fixing bolts 122, a packing part 123, and a traveling guider 124. It includes. The float part 120 is a floating member.

In this embodiment, the upper float portion 120a has a hemispherical shape with a first recess 126a and a protrusion, and the lower float portion 120b has a hemispherical shape with a second recess 126b and a protrusion. . The float portion 120 is formed by combining the first recessed portion 126a of the upper float portion 120a and the second recessed portion 126b of the lower float portion 120b, and the first recessed portion 126a and the first recessed portion 126a. The inner space 126 is formed by the two recesses 126b. Since the float portion 120 is suspended in the wastewater treatment tank 10 by a gas such as air in the internal space 126, the upper float portion 120a and the lower float portion 120b are the wastewater treatment tank 10. In order to prevent the inflow of the fluid 2 in the inside, shapes which are closely coupled to each other are preferable. However, the shape of the float portion 120 is not limited by the present embodiment, and can be modified and changed in various forms and sizes within a range apparent to those skilled in the art.

Through openings are formed in the upper float portion 120a and the lower float portion 120b at positions corresponding to each other. The diameter of the through opening is preferably larger than the diameter of the sensor unit 130. The sensor unit 130 is installed in the float unit 120 through the through opening.

The upper float portion 120a and the lower float portion 120b are coupled by a plurality of bolts 127. Before the upper float portion 120a and the lower float portion 120b are fixed to each other by bolt coupling, the following members are installed in the lower float portion 120b.

First, a plurality of weights 121 are installed inside the lower float portion 120b. The plurality of weights 121 are members for adjusting the floating height of the float portion 120. The weight 121 has an annular shape, and preferably includes a shape surrounding the sensor unit 130. On the other hand, the user can arbitrarily adjust the number of weights 121 to adjust the height of the float portion 120.

Subsequently, the weight 121 is fixed to the lower float portion 120b by a plurality of weight fixing bolts 122.

Next, the packing part 123 is installed between the weight 121 and the sensor part 130. The packing part 123 is formed between the sensor part 130 installed through the float part 120 and the plurality of weights 121 positioned around the sensor part 130 in a shape surrounding the sensor part 130. By packing the spaced apart, it is a member that prevents the movement of the sensor unit 130. In addition, the packing part 123 prevents the fluid 2 from flowing into the float part 120. The shape and size of the packing part 123 may be variously modified and changed according to the shape of the sensor part 130 and the size of the sensor part 130.

Finally, a plurality of weights 121, weight fixing bolts 122 for fixing the weight 121 to the lower float portion 120b, the packing portion 123 for packing between the sensor 130 and the weight After the) is installed, the upper float portion 120a and the lower float portion 120b are fixed by bolt 127 coupling. At this time, one end 124a of the traveling guider is fixed between the upper float portion 120a and the lower float portion 120b.

The traveling guider 124 connects the float portion 120 and the guide rail 110, and is a member movable up and down along the guide rail 110 according to the floating height of the float portion 120. In this embodiment, the shape of the traveling guider 124 is preferably a shape in which two annular rings are connected.

In the present embodiment, there are two traveling guiders 124, each connecting the float portion 120 and the guide rail 110 at positions corresponding to each other. That is, the traveling guider 124 is fixed to the float portion 120 with one annular ring 124a fitted to the bolt 127, and the other annular ring 124b corresponding to the annular ring 124a is guided. Is connected to the rail 110, and connects the float portion 120 and the guide rail (110).

The traveling guider 124 restricts the movement of the float part 120 having the floating function only to the vertical movement between the guide rails 110, and the sensor part 130 is parallel to the longitudinal direction of the guide rail 110. To be maintained.

The two-split floating sensor 100 configured as described above can easily adjust the floating height of the fluorine part 120 even when the water level of the wastewater treatment tank 10 is low as shown in FIG. 5. Since the sludge 1 deposited on the bottom of the wastewater treatment tank 10 and the sensor unit 130 may not be contacted, the pH value of the wastewater can be accurately measured when measuring the pH value of the wastewater treatment tank 10. .

The exemplary embodiments described above are intended to be illustrative, not limiting, in all aspects of the invention. Accordingly, the present invention is capable of many modifications and detailed implementations which may be obtained from those contained within the specification by those skilled in the art. All such modifications and variations are to be considered as within the scope and spirit of the invention as defined by the following claims.

1 is a perspective view showing an installation state of a fixed pH sensor mounted in a wastewater treatment tank according to the prior art.

2 is a schematic diagram of a fixed pH sensor mounted in a wastewater treatment tank at a low water level according to the related art.

3 is a perspective view illustrating an installation state of a two-split floating sensor mounted on a wastewater treatment tank according to an embodiment of the present invention.

4 is a cross-sectional view of a two-split floating sensor according to an embodiment of the present invention.

FIG. 5 is a cross-sectional view illustrating a two-split floating sensor mounted in a wastewater treatment tank at a low water level according to an embodiment of the present invention.

Claims (6)

A guide rail installed to extend up and down inside the wastewater treatment tank; A float portion that is connected to the guide rail so as to be movable up and down and is floating; And And a sensor unit fixed to the float unit. The method of claim 1, wherein the float portion An upper float portion; A lower float portion bolted to the upper float portion; And One end is fixed to the float portion while being fitted to the bolt, the other end is connected to the guide rail, characterized in that it comprises a traveling guider (traveling guider) moving up and down the guide rail according to the float height of the float portion Two-part floating sensor. The method of claim 1, wherein the float portion An upper float portion having a first recess; A lower float portion having a second recess and bolted to the upper float portion, the inner float forming an inner space by the first recess and the second recess; And A plurality of weights installed at a lower portion of the lower float portion in the inner space to adjust a floating height of the float portion; And And a weight fixing bolt for fixing the plurality of weights to the lower float portion. The method of claim 3, wherein The sensor portion is installed through the float portion, the weight is an annular surrounding the sensor portion, The internal space is provided between the sensor unit and the weight, and divided into a two-part structure characterized in that it comprises a packing unit for preventing the movement of the sensor unit, and preventing the fluid in the wastewater treatment tank from flowing into the internal space Floating sensor. The method of claim 1, The two-part floating type sensor, characterized in that the sensor unit is a pH sensor. In the two-split floating sensor for mounting on a guide rail installed inside the wastewater treatment tank, The guide having an upper float portion having a first recess, and a second recessed portion, the lower float portion being bolted to the upper float portion and forming an internal space by the first recess and the second recessed portion; A float portion connected to the rail so as to be movable up and down and floating; A sensor unit fixed to the float unit; A traveling guider, one end of which is fixed to the float part while being fitted to the bolt, the other end of which is connected to the guide rail and moves up and down of the guide rail according to the floating height of the float part; A plurality of weights installed in a lower portion of the lower float portion in an annular shape surrounding the sensor portion in the inner space to adjust the floating height of the float portion; A weight fixing bolt for fixing the plurality of weights to the lower float portion; And It is installed between the sensor unit and the weight in the inner space, two-split structure characterized in that it comprises a packing portion to prevent the movement of the sensor portion, and prevent the fluid in the wastewater treatment tank from flowing into the inner space Floating sensor.

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