KR101488718B1 - Protective structures attached Floating matters of Turbidity measurement device - Google Patents

Abstract

The present invention discloses a suspension attachment prevention structure of a turbidity measuring apparatus.
A turbidity measuring apparatus for measuring turbidity in water comprising a housing and a sensor positioned at the center of the housing and operated by a motor to measure turbidity through scattering of light, And a vibration motor for applying vibration to the housing to block attachment of floating matters to the lens of the sensor; And a buffer means for blocking vibrations from being transmitted to the outside of the housing when the housing is vibrated by the vibration motor, characterized in that a vibration motor is provided as a vibration means inside a housing with a sensor, It is possible to prevent vibration from being applied to parts outside the housing by absorbing the vibration through the buffering means during the vibration process.

Description

[0001] The present invention relates to a turbidity measurement device,

The present invention relates to a turbidity measuring apparatus, and more particularly, to a turbidity preventing structure of a turbidity measuring apparatus capable of measuring stable turbidity by preventing floating matters from sticking to a lens of a sensor during measurement of turbidity in water .

In general, the turbidity measuring device is used for the purpose of data collection for measuring the degree of pollution in water or improving various water quality environments by measuring the turbidity of water.

As an example of this, Patent Application No. 10-2005-0107926 proposes a water quality measuring device using fish or daphnia, and Patent Application No. 10-2010-0014804 improves the water quality purification device.

In the case of the above-mentioned water quality measuring device, it is necessary to have a structure for measuring the water quality through a water tank, an illumination source, a heater and a camera, and an expensive equipment. In addition, since the water quality is measured by artificial culture, .

In addition, the main purpose of the water purification apparatus described later is not to measure water quality but to purify polluted water through blades and the like.

In addition, the most common example is to measure the turbidity in water through scattering of light after placing the sensor in water.

However, in the process of measuring the turbidity in the water through the sensor, the floating matter adheres to the surface of the lens of the sensor, so that stable measurement can not be performed.

In order to solve such a problem, the present invention provides a structure for preventing the floating of the turbidity of the turbidity measuring device which can stably measure the turbidity in water by preventing floating matters from being attached to the lens surface of the sensor in advance. have.

In order to attain the object of the present invention, the turbidity adherence preventing structure of the turbidity measuring apparatus according to the present invention is for measuring the turbidity of water, and includes a housing and an upper part located at the center of the housing, And a vibrating motor which is installed inside the housing and includes a plurality of vibrating motors provided inside the housing for vibrating the housing and blocking floating matters from being attached to the sensor, The vibration damping structure according to claim 1, further comprising: a cushioning plate disposed at a lower portion of the housing for blocking vibrations from being transmitted to the outside of the housing upon vibration of the housing by the vibration motor; A buffer bar extending from the edge surface of the buffer plate to at least two portions and extending through the housing; And a buffer spring interposed between the buffer bar on the upper and lower surfaces of the housing through which the buffer bar penetrates, and absorbing shocks when vibrating the housing.

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It is possible to prevent floating matters from adhering to the lens of the sensor by providing a vibration motor as a vibration means inside the housing with the sensor built therein, It is possible to prevent vibrations from being applied to parts outside the housing by absorbing vibration through the buffering means.

FIG. 1 is a block diagram showing a structure for preventing floating of a turbidity of a turbidity measuring apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a suspension preventing structure of a turbidity measuring apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram showing a structure for preventing floating of a turbidity of a turbidity measuring apparatus according to the present invention.

As described above, the turbidity adherence preventing structure of the turbidity measuring apparatus according to the present invention is for measuring the turbidity in water. The turbidity measuring apparatus is provided with a housing (10), an upper part located at the center of the housing (10) And a sensor (sensor) 20, which is operated by a motor M to measure turbidity through the lens 21 and is protected by a lens 21.

At this time, the housing 10 is provided with a vibration motor (not shown) for vibrating at least two or more housings 10 to prevent the floating body from adhering to the lens 21 protecting the sensor 20, 30 are positioned.

That is, vibration is applied to the entire housing 10 by the vibration motor 30, thereby blocking the floating matter from adhering to the surface of the lens 21 located at the center.

On the other hand, when the housing 10 is vibrated by the vibration motor 30, if the vibration force is transmitted to the outside, there is a fear that the other components connected thereto are affected.

In order to prevent this, a buffer means is provided. In the detailed structure of the buffer means, a buffer plate 30 having the same shape as that of the housing 10 is provided under the housing.

That is, when the housing 10 has a circular cross-section or a rectangular cross-sectional shape, the buffer plate 30 also has the same cross-sectional shape.

At least two buffer bars 40 are positioned through the edge surface of the housing 10 from the edge surface of the buffer plate 30.

When the housing 10 and the buffer plate 30 have a circular cross section, the buffer bar 40 is preferably formed at an equal angle along the edge surface.

On the other hand, a buffer spring S which absorbs shock when a vibration is generated is provided on the buffer bar 40 on the upper and lower surfaces of the housing 10 through which the buffer bar 40 passes.

That is, between the upper surface of the housing 10 and the upper end of the cushioning bar 40 and between the cushioning plate 30 and the lower surface of the housing 10, the impact of the housing 10 vibrating up and down is absorbed .

The reference character P is a circuit board on which the sensor 20 is seated.

According to the present invention configured as described above, when a floating matter is attached to the lens 21 of the sensor 20 in the process of measuring turbidity in the water through the sensor 20, the vibration motor M operates and vibrates over the entire housing 10 So that the suspended matter adhering to the surface of the lens 21 is separated from the surface of the lens 21 by the vibration, so that stable turbidity measurement is performed.

On the other hand, when vibration is applied to the housing 10 through the vibration motor M, the vibrating force is transmitted to the outside, which may affect other components.

However, by absorbing the vibrating force on the housing 10 via the buffering means 30, the buffering bar 40 and the spring S, it is possible to prevent the above-mentioned problem by preventing transmission to the outside do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. There is no saying.

10: Housing
20: Sensor
21: Lens
30: buffer plate
40: buffer bar
M: Vibration motor
S: Buffer spring

Claims (2)

A sensor for measuring turbidity in water, comprising: a housing; a sensor positioned at the center of the housing and operated by a motor to measure turbidity through scattering of light; and at least two or more sensors are installed inside the housing, And a vibrating motor for blocking vibrations from adhering to the lens of the sensor by applying vibration to the sensor. In the turbidity adherence preventing structure of the turbidity measuring apparatus,
A shock absorbing plate disposed at a lower portion of the housing to prevent vibrations from being transmitted to the outside of the housing upon vibration of the housing by the vibration motor;
A buffer bar extending from the edge surface of the buffer plate to at least two portions and extending through the housing;
And a buffer spring interposed between the buffer bar on the upper and lower surfaces of the housing through which the buffer bar penetrates, and absorbing shocks when the housing vibrates.
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