KR200381009Y1 - Optical air pollution sensor - Google Patents

Abstract

The present invention relates to an optical fine dust detection device that accurately detects the amount of light scattered from fine dust particles, and more particularly, a light receiving sensor used to integrally form an intermediate case and a circuit board and to shield electromagnetic noise in the related art. Instead of installing a shield case on the upper and lower surfaces of the main body case, the conductive material is used to shield the light receiving unit, the light emitting unit and the circuit board by using materials of the upper and lower cases, and the mounting position of the air cleaner and the generated electromagnetic noise. The present invention relates to an optical fine dust detection device which prevents measurement errors from occurring and precisely measures and detects only contamination of indoor air.

In addition, in order to prevent the electromagnetic noise transmitted through the bolts for coupling the upper and lower cases to the circuit board for the measurement, the grounding part of the copper material, in which the electromagnetic noise is conducted and solved, is formed on the circuit board. The present invention relates to an optical fine dust detection device formed to enable precise measurement by preventing measurement errors from occurring in a processing unit formed on a circuit board by electromagnetic noise.

Description

Optical dust detection device {Optical air pollution sensor}

The present invention relates to an optical fine dust detection device that accurately detects the amount of light scattered from fine dust particles, and more particularly, a light receiving sensor used to integrally form an intermediate case and a circuit board and to shield electromagnetic noise in the related art. Instead of installing a shield case on the upper and lower surfaces of the main body case, the conductive material is used to shield the light receiving unit, the light emitting unit and the circuit board by using materials of the upper and lower cases, and the mounting position of the air cleaner and the generated electromagnetic noise. The present invention relates to an optical fine dust detection device which prevents measurement errors from occurring and precisely measures and detects only contamination of indoor air.

In addition, in order to prevent the electromagnetic noise transmitted through the bolts for coupling the upper and lower cases to the circuit board for the measurement, the grounding part of the copper material, in which the electromagnetic noise is conducted and solved, is formed on the circuit board. The present invention relates to an optical fine dust detection device formed to enable precise measurement by preventing measurement errors from occurring in a processing unit formed on a circuit board by electromagnetic noise.

Conventional fine dust detection device is mounted on the air purifier, which is the product line to be applied, and the mounting position of the detection device is minimized to minimize the electromagnetic noise caused by negative ion, electrostatic precipitating, plasma and high pressure discharge. The shield case is enclosed to constrain or cover the light receiving part of the detection device, thereby preventing malfunctions irrelevant to contamination by electromagnetic waves.However, electronic components for detection, which are configured inside the detection device, are not affected by contamination. There was a problem that occurs frequently, causing malfunction of the air cleaner regardless of the actual indoor air pollution.

Therefore, the present invention is designed to solve the above problems, the object of the present invention, instead of the shield case of the light-receiving sensor only used for the shielding of the conventional electromagnetic noise, by using a conductive resin, the injection molding used as the case, It is to provide an optical fine dust detection device capable of precisely detecting contamination of indoor air irrespective of the mounting position of the air cleaner and the generated electromagnetic noise by enabling complete shielding to the light receiving sensor, the light emitting sensor, and the signal amplifier.

In addition, in order to prevent the electromagnetic noise transmitted through the bolts for coupling the case to the electronic circuit board for measurement, electromagnetic ground noise is conducted to form a grounded copper ground where the electromagnetic noise is eliminated, thereby preventing the measurement from being caused by the electromagnetic noise. It is to provide an optical fine dust detection device to prevent the occurrence of the fine measurement.

As a specific means for achieving the above object,

The main body case is integrally formed with an intermediate case combined with the upper case to form a dark room, and a circuit board formed with a control circuit unit for measuring a signal from the light emitting unit and the light receiving unit of the main body case; A shielding function is applied by using a conductive resin so that the material of the upper case and the lower case is stabilized from external electromagnetic noise (negative ion discharge, electrostatic high pressure discharge, plasma high pressure discharge); The processing unit includes a driving circuit for controlling the light emitting unit for continuously emitting light, a photoelectric conversion unit including a phototransistor for converting a photocurrent according to the amount of received light detected by the light receiving unit, and a weak amount after converting the amount of incident scattered light into voltage. A signal amplification part for amplifying a signal contact, a noise cut part for removing noise components amplified with the signal, and a zea circuit part for outputting a contact pressure obtained by comparing with a reference value as a digital low pulse pulse pressure according to the detected particle concentration. Forming and fixing the body case and the upper and lower cases with bolts; A circular ground portion formed of a copper material is formed on the bottom of the circuit board of the main body case to which the bolts for fixing the upper case through the lower case and the main body are coupled so as to conduct electromagnetic waves generated from the outside. The noise canceling portion formed by the copper wire or the surface so as to conduct the electromagnetic noise to the bolt is formed in the upper and lower, sub-case so as to be connected to the bolt.

Thus, on the basis of the accompanying drawings will be described an embodiment of the present invention in detail.

1 is an exploded perspective view showing an optical fine dust detection device according to the present invention, Figure 2 is a combined perspective view showing an optical fine dust detection device according to the present invention, Figure 3 is an optical fine dust detection device according to the present invention 4 is a main sectional plan view showing an optical fine dust detection apparatus according to the present invention, Figure 5 is a main sectional side view showing an optical fine dust detection apparatus according to the present invention, Figure 6 Figure 7 is a flow chart showing a processing unit according to the present invention, Figure 7 is a front perspective view showing another embodiment of the optical fine dust detection apparatus according to the present invention, Figure 8 is another embodiment of an optical fine dust detection apparatus according to the present invention It is a rear perspective view showing the.

As illustrated in FIGS. 1 to 4, the detection device 1 for measuring fine dust according to the present invention, in particular, the main body case 4 is formed by integrally forming the intermediate case 41 and the circuit board 42. The middle case 41 is coupled to the upper case 2 coupled at the top to form a dark room for optical measurement, and the light emitting part 411 formed at one side of the upper portion of the middle case 4 is formed of a circuit board 42. The light-receiving unit 412 formed on the other side of the light emitting device is connected to the light-receiving device connected to the circuit board 42 so as to be inclined at a predetermined angle to detect fine dust.

At this time, heat is generated at the lower end of the upper surface of the intermediate case 41 so that the air introduced into the air cleaner through the inlet formed at the lower end of the upper case 2 flows smoothly into the detection device 1 using the convection phenomenon. A heating resistor 413 extending from the circuit board 42 so as to pass through the detection area of the light emitting unit 411 and the light receiving unit 412 to be discharged through the outlet 22 formed at the upper end of the upper case 2. It is.

In addition, since the light emitting part 411 and the light receiving part 412 formed on the main body case 4 measure and detect fine dust by light, an inlet for introducing external air into the upper case 2 to maintain the dark room. A lower portion 21 is formed at the lower portion, and an outlet 22 for discharging the air having measured the amount of fine dust in the air is formed at the upper portion, and external light is introduced into the detection device 21 and the outlet 22. It is to form a shielding film to prevent the inflow.

In addition, the upper case 2 is the main body case 4 to be coupled to the light emitting unit 411 and the light receiving unit 412 formed in the main body case 4 to prevent external light from penetrating into the detection device 1. The light emitting unit 411 and the light receiving unit 412 of the configuration is to be combined.

The material of the upper case 2 and the lower case 3 is shielded from anion discharge, electrostatic high pressure discharge, plasma high pressure discharge, etc., which is a kind of external electromagnetic noise.

As shown in FIG. 5, the bottom of the circuit board 41 of the main body case 4 to which the bolt 6 for fixing the upper case 4 through the lower case 3 and the main body case 4 is coupled. By forming a plate-shaped ground portion 5 made of copper material so that electromagnetic waves generated from the outside are conducted to the outside, the electromagnetic noises conducted from the outside are conducted to the ground portion formed on the circuit board by a bolt that fixes the detection device, and thus fine dust. It is possible to make an accurate measurement by preventing errors caused by electromagnetic noise in the processing part of the circuit board to be measured.

As illustrated in FIG. 6, the processor 421 formed on the circuit board 42 may include a driving circuit 100 that controls the light emitter 411 that emits light continuously, and an amount of light received by the light receiver 412. The photoelectric conversion unit 200 composed of a phototransistor for converting the photocurrent according to the voltage, the signal amplification unit 300 for amplifying the weak signal contact after converting the amount of incident scattered light into voltage, and amplified with the signal The noise cut unit 400 removes the noise component and the signal conversion output unit 500 outputs the contact pressure obtained by comparing the reference value to the digital low pulse contact pressure according to the detected particle concentration.

As described above, referring to the operation state of the processing unit, the operation of the processing unit installed in the present invention first controls the light emitting unit for continuously emitting light emitting elements formed in the light emitting unit, and the photoelectric conversion unit is operated by the light emitting element of the light emitting unit. It consists of a phototransistor that changes the photocurrent according to the amount of light received by the light-receiving receiver to the voltage.The signal amplifier converts the amount of scattered light incident from the photoelectric converter into a voltage and amplifies the weak pharmaceutical signal voltage. pass filter) removes the noise component (visible light region) amplified together with the signal, and the signal voltage output unit outputs only the signal passed through it as the final digital low pulse signal contact voltage, and the pulse period is proportional to the concentration of the incident dust. To output the voltage.

As shown in FIG. 7 and FIG. 8, the electromagnetic noise generated in the interior of the air cleaner is conducted to the ground plane through the bolt 6 for coupling the detection device 1 to solve the electromagnetic noise. If the electromagnetic noise is limited to the bolt 6 coupled to the outer side of the lower case 4 and is not conducted, the electromagnetic noise does not flow to the bolt 6 so as not to solve the electromagnetic noise at the ground portion 5. If it is transmitted to the processing unit for measuring fine dust, it may cause a problem such as measurement error. Therefore, the noise canceling part formed by copper wire or surface to surround the upper case 2 and the lower case 3 may be attached to the bolt. It is formed in the outer circumference.

As such, the present invention uses a conductive resin to surround the detection device with a conductive resin to completely shield the light-receiving part, the light-emitting part, and the electronic circuit board which are affected by the electromagnetic noise, and thus, the mounting position and the inside of the air cleaner where the detection device is installed. Irrespective of the electromagnetic wave noise, only indoor air pollution can be detected accurately.

In addition, by using a bolt that is coupled to the case forming the outside of the detection device by forming a ground portion made of a copper material that electromagnetic wave noise is conducted and eliminated, it is possible to prevent the error occurs in the measurement by the electromagnetic noise can be measured accurately .

Although the present invention has been shown and described with respect to specific embodiments, it should be understood that the present invention may be variously modified and modified without departing from the spirit or the scope of the present invention provided by the following Utility Model Claims. Those of ordinary skill in the art will readily appreciate and be within the scope of the claims.

1 is an exploded perspective view showing an optical fine dust detection apparatus according to the present invention,

2 is a perspective view showing an optical fine dust detection apparatus according to the present invention,

Figure 3 is a bottom view showing an optical fine dust detection apparatus according to the present invention,

4 is a planar sectional view showing main parts of an optical fine dust detection apparatus according to the present invention;

Figure 5 is a main side cross-sectional view showing an optical fine dust detection apparatus according to the present invention,

6 is a flow chart showing a processing unit according to the present invention,

7 is a front perspective view showing another embodiment of the optical fine dust detection apparatus according to the present invention,

8 is a rear perspective view showing another embodiment of the optical fine dust detection apparatus according to the present invention.

Explanation of reference numbers

1: detection device 2: upper case

21: inlet 22: outlet

3: lower case 4: main body case

41: middle case 411: light emitting unit

412: light receiving unit 413: heating resistance

42: circuit board 421: processor

5: grounding part 6: bolt

7: noise canceling unit 100: driving circuit

200: photoelectric conversion unit 300: signal amplifier

400: noise cut part 500: signal conversion output part

Claims (5)

An optical fine dust detection device comprising an upper case forming a dark room, a light emitting part for optical measurement, a main body case having a light receiving part, and a lower case protecting the main body case, The main body case 4 is an intermediate case 41 is coupled to the upper case 1 to form a dark room, Optical dust detection device, characterized in that the circuit board 42 is formed integrally with the processing unit (421) for measuring the signal transmitted from the light emitting unit (411) and the light receiving unit (412) of the main body case (4). According to claim 1, wherein the shielding function using a conductive resin to stabilize the material of the upper case (2) and the lower case (2) from external electromagnetic noise (negative ion discharge, electrostatic precipitating high-pressure discharge, plasma high-pressure discharge) Optical fine dust detection device, characterized in that applied. The photovoltaic device of claim 1, wherein the processor 421 is configured to control the light emitting unit 411 that emits light continuously, and to convert a photocurrent according to the amount of light received by the light receiving unit 412 into a voltage. A photoelectric conversion unit 200 composed of a transistor, a signal amplifier 300 for amplifying a weak signal contact after converting the amount of incident scattered light into voltage, and a noise cut unit for removing noise components amplified together with the signal ( 400) and a signal conversion output unit 500 for outputting the contact pressure obtained by comparing the reference value to the digital low-pulse contact pressure according to the concentration of the detected particles. The method of claim 1, wherein the main body case (4) and the upper and lower cases (2, 3) are fixed with bolts (6); Electromagnetic noise generated from the outside on the bottom of the circuit board 42 on one side of the body case 2 to which the bolt 6 for fixing the upper case 2 through the lower case 3 and the body case 4 is coupled. Optical fine dust detection device, characterized in that the disk-shaped ground portion (5) formed of a copper material to be conducted and eliminated. The upper and lower parts of claim 1, wherein noise canceling portions 7 formed of copper wires and surfaces are connected to bolts 6 so that electromagnetic waves are conducted to bolts 6 coupled to the lower case 3. Optical dust detection device, characterized in that formed to surround the case (2,3) outer circumference.