KR20190124955A - Holder for water quality test sensor - Google Patents

Abstract

The present invention relates to a holder for a water quality measurement sensor, capable of fixing and lifting various sensors installed in a reactor of sewage treatment equipment for water quality measurement and observation control. The holder includes: a support comprising a lower support installed on the base and including a combination hole punched in the upper part, and an upper support including a combination protrusion formed in the lower part to be inserted into the combination hole; a height control part in which a hanging surface formed vertically on one side of the upper support and a slope surface formed diagonally on the hanging surface are formed in a repetitive pattern; a horizontal frame including an insertion groove penetrated vertically to be combined with support, and a hanging pin combined with the hanging surface of the height control part penetrating the insertion groove; and a support frame combined with the front side of the horizontal frame to be rotatable, and including a fixing body formed at an end to be combined with a water quality measurement sensor.

Description

Holder for water quality test sensor

The present invention relates to a holder for a water quality measurement sensor, and more particularly, to a holder for a water quality measurement sensor for fixing and lifting various sensors installed for water quality measurement and monitoring control in a reaction tank of a sewage treatment facility.

In general, in the case of a reaction tank of a sewage treatment facility having an open top, a water quality measuring sensor is installed at the edge of the retaining wall of the tank, and the sensor is combined with the sensor holder to fix the bracket.

At the end of the sensor holder, a water quality sensor is installed. If the water quality sensor installed in the water is contaminated or foreign matter is attached, the normal measurement value is not obtained. As a result, the mechanical equipment operating in conjunction with the water quality measurement value causes excessive copper movement, which causes the phenomenon of impaired water treatment efficiency.

In order to solve this problem, in order to check the condition of the water quality sensor, the water quality sensor must be lifted out of the tank to check the water quality sensor site with the naked eye of the operator and take action.

In the related art, when a worker lifts a water quality measuring sensor, there is a problem of going through a rather dangerous and unnecessary process of performing an operation of separating a fixed part by reaching a top of a reaction tank or reaching a hand into a water tank.

1. Korean Registered Patent No. 10-1057969 'Universal fastener for fastening holder of water quality sensor' (Date: 2011.08.12)

The present invention has been made in order to solve the above problems, and provides a holder for fixing the water quality measurement sensor for measuring the water quality to provide a holder for the water quality sensor that can lift the water quality sensor by a simple operation outside the tank. The main purpose is to.

Holder for water quality measurement sensor according to the present invention and the support is composed of a base, a lower support which is installed in the upper portion of the base and the upper support is formed in the upper support and the coupling is inserted into the coupling hole in the lower support and A height adjusting portion formed in a repeating pattern of a locking surface vertically formed on one side of the upper support, an inclined surface inclined from the locking surface, and an insertion groove formed to penetrate in the vertical direction to be coupled to the support The inner side is rotatably coupled to the front of the horizontal frame and the horizontal frame is installed on the locking pin is fastened to the locking surface of the height adjustment portion penetrated into the insertion groove, the end is formed with a fixture coupled to the water quality measurement sensor And a support frame.

On the other hand, the holder for the water quality sensor according to the present invention is coupled to the base, the upper portion of the base, the side is formed with a plurality of height adjustment holes penetrating, the insertion groove is formed in the vertical direction to be coupled to the support and The side of the horizontal frame and the horizontal frame is formed in the fixing hole in the direction perpendicular to the insertion groove, the height adjustment hole and the fixing hole, the rotation preventing device for determining the height and the coupling direction of the horizontal frame on the support of the horizontal frame Is rotatably coupled to the front, the end is characterized in that it comprises a support frame is formed with a fixture to which the water quality measurement sensor is coupled.

In addition, the upper edge of the lower support includes a first coupling means protruding or recessed at regular intervals, and the lower edge of the upper support includes a second coupling means recessed or protruding to correspond to the first coupling means; It is characterized by.

In addition, the horizontal frame is characterized in that it further comprises a drive motor for rotating the support frame.

In addition, the holder for the water quality sensor is characterized in that it further comprises a control module for controlling the rotation of the drive motor by wireless or wired.

The holder for a water quality sensor according to the present invention is a support frame to which the water quality sensor is fixed is rotatably coupled to the horizontal frame is lifted in the reaction tank, the lower strut and the upper strut are rotatably coupled to the outside of the reactor Since the rotation, the operator has the effect of fixing and separating the water quality measurement sensor from the outside of the reactor.

In addition, by adjusting the height of the horizontal frame through the height adjustment portion formed on one surface of the support, there is an effect that can adjust the position of the water quality measurement sensor according to the depth of the reaction tank.

1 is a perspective view showing a holder for a water quality measurement sensor according to an embodiment of the present invention.
FIG. 2 is a perspective view illustrating a state in which the support frame of FIG. 1 is rotated.
3 is a perspective view illustrating a state in which the support of FIG. 1 is rotated.
Figure 4 is an enlarged view showing a separation state of the lower support and the upper support according to an embodiment of the present invention.
Figure 5 is a side view showing the strut and the horizontal frame according to an embodiment of the present invention.
6 is a perspective view showing a holder for a water quality measurement sensor showing another embodiment of the present invention.
FIG. 7 is a perspective view illustrating a state in which the support frame of FIG. 6 is rotated.
8 is a perspective view illustrating a state in which the horizontal frame of FIG. 6 is rotated.

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

The accompanying drawings are only examples to illustrate the technical idea of the present invention in more detail, and thus the technical idea of the present invention is not limited to the forms of the accompanying drawings.

However, in the following description of the present invention, descriptions of already known functions or configurations will be omitted to clarify the gist of the present invention.

1 is a perspective view showing a holder for a water quality measurement sensor according to an embodiment of the present invention.

As shown in FIG. 1, the holder for a water quality sensor of the present invention includes a base 100, a strut 200, a height adjuster 300, a horizontal frame 400, and a support frame 500.

First, the base 100 is installed on the upper portion of the outer wall surrounding the reaction tank of the sewage treatment facility, and is located at the bottom of the holder for the water quality sensor of the present invention.

And the support 200 is installed on the upper portion of the base 100, the lower support 210, the coupling hole 211 is perforated on the upper, and the coupling protrusion 221 is inserted into the coupling hole at the bottom is formed It consists of an upper strut 220.

Referring to Figure 4 in detail the coupling relationship between the lower strut and the upper strut,

Although the lower support 210 and the upper support 220 are shown in a rectangular cross section, they may be formed in a polygon or a circle including a triangle and a pentagon, and the lower support 210 may be formed on an upper surface of the base 100. Is formed to be welded or integrally fixed to, the upper surface of the lower support 210 is formed with a recessed coupling hole 211 is formed in a circular cross section.

In addition, a coupling protrusion 221 is formed on the lower surface of the upper support 220 so as to correspond to the coupling hole 211, and a cross section of the coupling hole 211 and the coupling protrusion 221 is formed in a circular shape. Coupling protrusion 221 can be rotated by a sieve inserted into the coupling hole 211.

At this time, the coupling hole 211 is formed in the lower support 210 of the holder for the water quality measurement sensor of the present invention, the coupling protrusion 221 is formed in the upper support 220, but the coupling protrusion in the lower support 210 As a matter of course, various modifications can be made, such as to form a coupling hole in the upper support 200.

The first coupling means 212 protrudes or is formed at regular intervals on the upper edge of the lower support 210, and the first coupling means 212 is formed on the lower edge of the upper support 220 to correspond to the first coupling means 212. 2 coupling means 222 is recessed or protruded.

In FIG. 4, the first coupling means 212 is recessed and the second coupling means 222 is protruded. However, the first coupling means 212 is formed of a protrusion which protrudes, and the second coupling means ( 222 may be recessed in the form of a groove accommodating the first coupling means 212.

Preferably, a constant force such that the upper support 220 is rotated in a state where the engaging projection 221 is accommodated in the coupling hole 211 so that the upper surface of the lower support 210 and the lower surface of the upper support 220 are in close contact with each other. Is applied, the second coupling means 222 received in the first coupling means 212 is detached and rotated and then received in the other first coupling means 212 in the rotated position.

In addition, the first coupling means 212 and the second coupling means 222 serve to guide the rotation angle of the upper support 220 is rotated on the upper surface of the lower support 210, the first coupling The second coupling means 222 is received in the means 212 to prevent the upper strut 220 from wandering on the lower strut 210.

Next, as shown in FIG. 5, the height adjustment part 300 is formed to be inclined at the locking surface 310 and the locking surface 310 formed perpendicular to one side of the upper support 220. The inclined surface 320 is formed in a repeating pattern.

At this time, the engaging surface 310 is formed in a direction perpendicular to one side of the upper support 200, the inclined surface 320 is formed to be inclined upward or downward from the end of the engaging surface 310.

In addition, the horizontal frame 400 is inserted into the groove 410 is formed in the vertical direction to be coupled to the support 200, there is a locking pin 420 is engaged therein the engaging surface 310.

Here, the horizontal frame 400 is moved along the outer circumferential surface of the support 200 through the insertion groove 410 formed in the horizontal frame 400, the height is determined, the hook formed in the height adjustment unit 300 The engaging pin 420 is engaged with the surface 310 and the height of the strut 200 is determined by the horizontal frame 400.

In addition, the lower surface of the locking pin 420 is supported by the upper surface of the locking surface 310, thereby maintaining a reliable positioning state, and also prevents the horizontal frame 400 from falling.

Again, as shown in Figure 1, the support frame 500 is rotatably coupled to the front of the horizontal frame 400, the end is formed with a fixture 510 to which the water quality measurement sensor 10 is coupled do.

In this case, the support frame 500 is rotatably coupled to the center frame of the horizontal frame 400 manually or automatically, when manually rotated, a bearing (not shown) in front of the horizontal frame 400 Is installed and the support frame 500 is coupled to the bearing can be manually rotated based on the central axis of the horizontal frame 400.

In addition, when automatically rotated, a drive motor 440 is installed in front of the horizontal frame 400, the rotation shaft and the support frame 500 of the drive motor 440 is coupled to the support frame 500 is a drive motor It is rotated by the driving force of 440.

That is, as shown in FIG. 2, the support frame 500 is rotated by the drive motor 440, and as the support frame 500 is rotated, the water quality measuring sensor 10 standing vertically in the reactor also rotates. It is then lifted to the top of the reactor.

In addition, the water quality measuring sensor 10 lifted to the upper portion of the reactor is rotated on the lower support 210, the upper support 220 is rotated, as shown in FIG. 10) it is possible to remove the foreign matter attached to, and to repair or replace the water quality measurement sensor (10).

1, 2 and 3 in order to lift the water quality measurement sensor 10 installed in the reaction tank to the outside of the reaction tank, after which the operator removes the foreign matter attached to the water quality measurement sensor 10, water quality measurement sensor ( 10) can be repaired or replaced, and the water quality measurement sensor 10 is fixed to the fixture 510 of the support frame 500, and then the water quality measurement sensor 10 is inserted into the reactor in the order of FIGS. 3, 2 and 1. It can be deposited.

At this time, the holder for the water quality sensor of the present invention further includes a control module 700 that can remotely rotate the support frame 500 and the upper support 220.

The control module 700 is installed in the base 100 or the support 200, is connected to the rotation drive (not shown) of the drive motor 440 or the upper support 220, the control module 700 of the It is possible to adjust the rotation of the drive motor 440 and the upper support 220 according to the operation.

In addition, the control module 700 may be formed by means that can be controlled wirelessly, such as a conventional remote control, the operator to rotate the drive motor 440 and the upper support 220 even at a predetermined distance away from the reactor. It can be adjusted.

Next, look at another embodiment of the holder for a water quality sensor of the present invention,

As shown in FIG. 6, the holder for the water quality sensor of the present invention includes a base 100, a support 200, a horizontal frame 400, an anti-rotation device 600, and a support frame 500.

First, the base 100 is installed on the upper portion of the outer wall surrounding the reaction tank of the sewage treatment facility, can be fixedly installed on the upper portion of the outer wall according to the convenience of the operator, can be installed to be movable.

And the support 200 is formed integrally, unlike one embodiment, is coupled to the upper portion of the base 100, a plurality of height adjustment holes 230 are formed along the height direction.

In addition, the support 200 is preferably formed in a cylindrical shape so that the horizontal frame 400 to be described later is rotated along the outer circumferential surface of the support 200.

On the other hand, the support 200 may be formed in a polygonal shape, such as a triangle, a square, a pentagon, not a cylindrical cross section, in which case it is coupled to be rotatable on top of the base 100.

At this time, the height adjustment hole 230 is perforated in a direction perpendicular to the longitudinal direction of the outer wall, as shown in Figure 6 so that the horizontal frame 400 to be described later is installed in the reaction vessel inner direction, as shown in Figure 8 Similarly, it is perforated in a direction parallel to the longitudinal direction of the outer wall.

Next, the horizontal frame 400 is formed with an insertion groove through which the support is coupled, and a fixing hole 430 is formed at a side of the horizontal frame 400 in a direction perpendicular to the insertion groove 410.

The fixing hole 430 is formed to have the same diameter as the height adjustment hole 230 formed in the support 200, it is formed to communicate with the insertion groove 410 on the side of the horizontal frame 400.

The anti-rotation tool 600 is inserted into the height adjusting hole 230 and the fixing hole 430 to determine the height and direction of the horizontal frame 400 on the support 200.

Next, the support frame 500 is rotatably coupled to the front of the horizontal frame 400, the end is formed with a fixture 510 to which the water quality measurement sensor 10 is coupled.

At this time, a bearing is installed in front of the horizontal frame 400, the support frame 500 may be manually rotated based on the central axis of the horizontal frame 400, the drive motor in front of the horizontal frame 400 440 is installed to rotate the support frame 500.

At this time, the holder for the water quality sensor of the present invention further includes a control module 700 that can remotely rotate the support frame 500 and the upper support 220.

The control module 700 is installed in the base 100 or the support 200, is connected to the drive motor 440, by controlling the driving of the drive motor 440 in accordance with the operation of the control module 700 The support frame 500 may be rotated.

In addition, the control module 700 may be formed by means that can be controlled wirelessly, such as a conventional remote control, the operator can adjust the rotation of the drive motor 440 even at a predetermined distance away from the reactor.

That is, as shown in FIG. 7, the support frame 500 is rotated by the drive motor 440, and as the support frame 500 is rotated, the water quality measuring sensor 10 standing vertically in the reactor also rotates. It is then lifted to the top of the reactor.

Subsequently, as shown in FIG. 8, the operator separates the anti-rotation tool 600 inserted into the rear of the horizontal frame 400 to move the horizontal frame 400 so that the water quality measurement sensor 10 is rotated out of the reactor. Rotating, and the anti-rotation tool 600 is inserted into the fixing hole 430 and the height adjustment hole 230 corresponding thereto to fix the horizontal frame 400.

Therefore, the operator can remove the foreign matter attached to the water quality sensor 10 from the outside of the reaction tank, repair or replace the water quality sensor 10.

On the contrary, when the water quality measurement sensor 10 is precipitated in the reaction tank, as shown in FIG. 8, after the worker fixes the water quality measurement sensor 10 to the fixed body 510, the horizontal frame 400 as shown in FIG. 7. After rotating in the direction of the reaction vessel, by rotating the support frame 500 by the drive motor 440 or by hand can be precipitated in the reaction vessel.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

10: water quality sensor
100: base
200: prop
210: lower strut
211: coupling hole
212: first coupling means
220: upper pillar
221: engaging projection
222: second coupling means
230: height adjustment hole
300: height adjustment
310: engaging surface
320: slope
400: horizontal frame
410: Insertion groove
420: locking pin
430: fixing hole
440 drive motor
500: support frame
510: fixed body
600: anti-rotation tool
700: control module

Claims (5)

Base;
A post formed on an upper portion of the base and including a lower support having a coupling hole formed therein, and an upper support having a coupling protrusion inserted into the coupling hole at a lower portion thereof;
A height adjusting part formed in a pattern in which a locking surface vertically formed on one side of the upper support and an inclined surface inclined from the locking surface are repeated;
An insertion groove formed to penetrate in the up and down direction to be coupled to the support, and a horizontal frame formed therein with a locking pin fastened to a locking surface of the height adjustment part penetrating the insertion groove; And
And a support frame rotatably coupled to the front of the horizontal frame, the support frame having an end to which a water quality measurement sensor is coupled at an end thereof.
Base;
Coupled to the upper portion of the base, the side is a strut formed through a plurality of height adjustment holes;
An insertion groove formed to penetrate in the up and down direction to be coupled to the support, and a horizontal frame at a side thereof having a fixing hole formed in a direction perpendicular to the insertion groove;
A rotation prevention tool inserted into the height adjusting hole and the fixing hole to determine a height and a coupling direction of a horizontal frame on the support; And
And a support frame rotatably coupled to the front of the horizontal frame, the support frame having an end to which a water quality measurement sensor is coupled at an end thereof.
The method of claim 1,
First coupling means protruding or recessed at regular intervals on the upper edge of the lower support, and second coupling means recessed or protruding on the lower edge of the upper support to correspond to the first coupling means. Holder for water quality measurement sensor to use.
The method according to claim 1 or 2,
The horizontal frame,
And a drive motor for rotating the support frame.
The method of claim 4, wherein
The holder for the water quality measurement sensor,
And a control module for wirelessly or wiredly controlling the rotation of the drive motor.

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