KR100871540B1 - Rotary particle sensor assembly - Google Patents

Abstract

Provided is a particle sensor assembly which can maintain a constant direction irrespective of the arrangement method of an air cleaner. In a particle sensor assembly mounted on an inner part of an air cleaner to measure the pollution level of air, a rotary particle sensor assembly comprises: a particle sensor(10) measuring the pollution level of air flown in the air cleaner; a particle sensor cover(20) to which the particle sensor is fixedly coupled, and which has a weight(22) formed on one side thereof; and a particle sensor cover guide(30) which is fixed to the inner part of the air cleaner, and to which the particle sensor cover is rotationally coupled.

Description

Rotary Particle Sensor Assembly

1 is a perspective view of a general particle sensor.

2 is a perspective view of an air cleaner equipped with the particle sensor of FIG. 1.

3 is an exploded perspective view of a rotary particle sensor assembly according to an embodiment of the present invention.

Figure 4 is a cross-sectional perspective view of the assembly of Figure 3 coupled.

5 is a conceptual diagram showing the operating principle of the assembly of FIG.

※ Explanation of code for main part of drawing ※

10: particle sensor 11: inlet

12 detection unit 13 discharge port

20: particle sensor cover 21: rotation axis

22: weight 30: particle sensor cover guide

31: fixed shaft 32: fixed piece

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a particle sensor assembly mounted on an air cleaner, and more particularly, to a particle sensor assembly capable of maintaining a constant direction regardless of a method of arranging the air cleaner.

Particle sensor (particle sensor) is a device for measuring the number and size of fine particles contained in the air. The particle sensor is a device for purifying air or related to inflow and outflow of air, and is mounted in various devices such as an air conditioner, an air purifier, an air conditioner, and the like.

The particle sensor provides information in real time by identifying the number and size of particulates in the air to help efficient operation of devices such as air cleaners.

Referring to FIG. 1, a general particle sensor 10 may include an inlet 11 through which air is introduced, a detector 12 measuring particles of air introduced through the inlet 11, and a discharge port through which measured air is discharged ( 13) is included.

The general particle sensor 10 is generally a method of measuring by irradiating light to the natural convection air, rather than applying an external force to the incoming air. In this case, in order to ensure the accuracy of the detection, the air flowing through the inlet 11 must flow toward the outlet 13 vertically in the direction of gravity in the detector 12. This is because natural convective air moves vertically from the bottom up by the density difference.

This density difference is caused by the air flowing into the inlet 11 is expanded by the heat generated from the 'resistance' of the general electronic components installed around the inlet 11. In other words, the inflow air thermally expanded becomes lighter than the surrounding air at a lower density, thus increasing vertically.

As a result, the air measured by the particle sensor 10, since the 'resistance' of the electronic components installed around the inlet 11 of the particle sensor 10 serves as its own heat source, the air flowing through the inlet 11 is After being vertically raised while being expanded and measured by the detection unit 12, the vertically vertically rising is continuously exited through the discharge port 13.

However, the arrangement of the air purifier may be changed into a vertical type and a horizontal type. The arrangement method may vary according to the taste of the consumer and the installation environment of the air cleaner, and the particle sensor 10 mounted inside the air cleaner may be changed. ) Is a straight line in which the inlet 11 and the detector 12 and the discharge port 13 are aligned vertically or horizontally from the ground according to the arrangement method of the air cleaner.

In this case, natural convection air is difficult to flow naturally through the inlet 11, the detector 12, and the discharge port 13 positioned on the horizontal line, and as a result, accurate particle measurement cannot be performed in the detector 12.

Referring to FIG. 2, in the case of the vertical (or stand) air cleaner 1 and the horizontal (or collapsible) air cleaner 2, the positions of the embedded particle sensor 10 are changed as described above.

Therefore, a particle sensor is always required in which the inlet 11, the detector 12, and the outlet 13 are vertically located in the direction of gravity regardless of the arrangement of the air cleaner.

The present invention has been made in view of the above point, it is an object of the present invention to provide a particle sensor assembly that can maintain a constant direction irrespective of the air cleaner arrangement method.

Rotary particle sensor assembly according to an embodiment of the present invention provided to achieve the above object, in the particle sensor assembly for measuring the pollution degree of the air introduced into the inside of the air cleaner, the inside of the air cleaner Particle sensor for measuring the pollution of the incoming air; A particle sensor cover to which the particle sensor is fixed and coupled with weights formed on one side; And a particle sensor cover guide fixed to the inside of the air cleaner and rotatably coupled to the particle sensor cover, wherein the particle sensor cover is configured to change the position of the air cleaner from vertical to horizontal or horizontal to vertical. When it is, the weight is constantly positioned in the direction of gravity due to the weight, characterized in that the position of the particle sensor is constant in the direction of gravity while rotating relative to the particle sensor cover guide.

The particle sensor is provided with a detector for measuring the contamination level of the inlet and the air introduced into the air, and the discharge port through which the air measured by the contamination is discharged through the detection unit, the inlet, the detector and the discharge port is in line with the weight Aligned with the phase, it is preferable that the weight is constantly positioned in the direction of gravity.

A rotating shaft protrudes from the particle sensor cover, a fixed shaft protrudes from the particle sensor cover guide, the fixed shaft of the particle sensor cover guide is fixed to the air cleaner, and the rotating axis of the particle sensor cover is the particle sensor. The particle sensor cover is rotatably inserted in the fixed shaft of the cover guide, and the particle sensor cover is constantly positioned in the direction of gravity due to the weight when the position of the air cleaner is changed from vertical to horizontal or horizontal to vertical. It is preferable to rotate relative to the axis of rotation with respect to the particle sensor cover guide that is changed in position with the air cleaner.

The particle sensor cover guide is preferably formed with a fixing piece can be fixed to the inside of the air cleaner.

Hereinafter, a configuration of a rotary particle sensor assembly according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, the same reference numerals are used for the same components as those used in FIGS. 1 and 2, and detailed descriptions thereof will be omitted.

The rotary particle sensor assembly according to the embodiment of the present invention is mounted inside a general air purifier. Since the technical idea of the present invention is in the rotary particle sensor assembly, a description related to the air purifier is omitted. Of course, the present invention can be applied to a general air cleaner.

Referring to Figure 3, the rotary particle sensor assembly according to an embodiment of the present invention, the particle sensor 10 for measuring the pollution degree of the air flowing into the air cleaner, the particle sensor is fixedly coupled to the weight on one side A particle sensor cover 20 having a 22 formed therein, and a particle sensor cover guide 30 fixed to the inside of the air cleaner and to which the particle sensor cover is rotatably coupled.

As the particle sensor 10 is applied to the particle sensor 10 of FIG. 1, the inlet 11 through which air is introduced, the detector 12 for measuring the pollution degree of the introduced air, and the detector 12, as in FIG. 1. The discharge port 13 through which the air whose contamination is measured is discharged is formed.

Preferably, the inlet 11, the detector 12, and the outlet 13 are aligned in a line with the weight 22 of FIG. 3, and are constantly positioned in the direction of gravity indicated by the weight 22. 'Constantly' is enough to mean 'perpendicular to the ground to be aligned on the same line as the direction of gravity'.

Particle sensor cover 20 is a particle sensor 10 is seated therein, the weight weight 22 is formed on one side. The particle sensor cover 20 is coupled to the particle sensor 10 to maintain a fixed position. Therefore, when the particle sensor cover 20 rotates, the particle sensor 10 also rotates in the same manner.

The particle sensor cover guide 30 is rotatably coupled to the particle sensor cover 20 to which the particle sensor 10 is coupled. In addition, the particle sensor cover guide 30 is mounted inside (not shown) of the air cleaner.

Hereinafter, the combination of the particle sensor 10, the particle sensor cover 20, and the particle sensor cover guide 30 will be described in detail with reference to FIG. 4.

The particle sensor 10 is coupled to maintain a fixed position on the particle sensor cover 20 as described above. There is no particular limitation on the manner of joining. A bracket (not shown) may be formed on the exterior of the particle sensor 10 and a boss (not shown) may be formed on the particle sensor cover 20 by using a general screw or the like.

The particle sensor cover 20 coupled with the particle sensor 10 is rotatably coupled with the particle sensor cover guide 30. The particle sensor cover guide 30 is fixed inside the air cleaner as described above. In order for the particle sensor cover 20 to be rotatably coupled to the particle sensor cover guide 30, a rotating shaft 21 is protruded on one side of the particle sensor cover 20, and the rotating shaft 21 is a particle sensor cover. It is rotatably inserted into the fixed shaft 31 formed in the guide (30).

Since the rotating shaft 21 should be rotatable within the fixed shaft 31, the outer diameter of the rotating shaft 21 is preferably designed to be smaller than the inner diameter of the fixed shaft 31.

The position design of the rotating shaft 21 should be designed around the detection unit 12 of the particle sensor 10 to minimize the size of the overall particle sensor 10, and the inlet 11 and the discharge unit for air intake and discharge ( The external hole size of products such as air cleaners in communication with 13) can be minimized. Therefore, the rotation shaft 21 is preferably designed based on the detector 12 of the particle sensor 10.

Preferably, the fixed shaft 31 is fixed to the air cleaner. In addition, the outer side of the particle sensor cover guide 30, the fixing piece 32 is formed to protrude, it can be firmly coupled to the inside of the air cleaner and the particle sensor assembly through the fixing piece (32). Since there is no limitation in the coupling method, the fixing piece 32 and the air cleaner can be combined using a general screw or the like.

Hereinafter, with reference to Figure 5, the operation principle of the rotary particle sensor assembly according to an embodiment of the present invention will be described in detail.

The upper figure of FIG. 5 shows a rotating particle sensor assembly mounted to a vertical air cleaner (see FIG. 2), and the lower figure of FIG. 5 shows a rotating particle mounted to a horizontal air cleaner (see FIG. 2). A sensor assembly is shown.

Herein, the vertical air cleaner 1 and the horizontal air cleaner 2 do not mean separate independent air cleaners. For convenience, it is enough to understand the concept as a distinction.

Therefore, if the air cleaner is arranged in a horizontal form in a vertical arrangement (or vice versa), the particle sensor 10 according to the prior art is inclined with the inlet 11 according to the arrangement position of the air cleaner. As described above, the detection unit 12 and the discharge port 13 are displaced on a vertical line on a horizontal line, and the inflow and outflow of natural convection air is not constant so that accurate measurement is not guaranteed.

The rotary particle sensor assembly according to the present invention may be rotatably coupled to the particle sensor cover guide 30 regardless of the arrangement position of the air cleaner, and the particle sensor cover 20 having the particle sensor 10 fixed therein. Since the weight weight 22 is formed on one side, the weight weight 22 always indicates the direction of gravity.

Therefore, even if the position of the air cleaner is changed from vertical to horizontal or horizontal to vertical, or various other angles, the position of the particle sensor cover 20 is always vertical in the direction of gravity by the weight 22. Will be located.

Since the inlet 11, the detector 12, and the outlet 13 are aligned in line with the weight 22, as a result, the inlet 11, the detector 12, and the outlet 13 are always in a straight line in the direction of gravity. Is sorted on.

Therefore, the air flowing in the natural convection method is vertically moved from the lower side to the upper side due to the difference in density, so that the inlet 11, the detector 12, and the outlet 13 are always aligned in a straight line in the direction of gravity, and thus the air Accurate particle measurement is possible regardless of the position of the purifier.

According to the rotary particle sensor assembly according to the embodiment of the present invention described above, the particle sensor is always positioned while indicating the direction of gravity to maintain a constant direction irrespective of how the air cleaner is placed, thereby ensuring accurate measurement. have.

Claims (4)

In the particle sensor assembly that is mounted inside the air cleaner to measure the contamination of the incoming air, A particle sensor for measuring a pollution level of air introduced into the air cleaner; A particle sensor cover to which the particle sensor is fixed and coupled with weights formed on one side; And, And a particle sensor cover guide fixed to the inside of the air cleaner, the particle sensor cover rotatably coupled thereto. The particle sensor cover, while the position of the air cleaner is changed from vertical to horizontal or horizontal to vertical, the particle sensor while being rotated relative to the particle sensor cover guide is constantly positioned in the direction of gravity due to the weight Rotary particle sensor assembly, characterized in that to maintain a constant position in the direction of gravity. The method of claim 1, The particle sensor is provided with a detection unit for measuring the pollution degree of the inlet and the air inflow and the air inlet and the discharge port through which the air measured the pollution degree is discharged through the detection unit, The inlet, the detector and the outlet are aligned in a line with the weight, and the rotary particle sensor assembly, characterized in that it is constantly positioned in the direction of gravity indicating the weight addition. The method of claim 1, The particle sensor cover has a rotating shaft protruding, A fixed shaft protrudes from the particle sensor cover guide, The fixed shaft of the particle sensor cover guide is fixed to the air cleaner, The rotation axis of the particle sensor cover is rotatably inserted into the fixed axis of the particle sensor cover guide, The particle sensor cover is the particle sensor that is constantly positioned in the direction of gravity due to the weight when the position of the air cleaner is changed from vertical to horizontal or horizontal to vertical. Rotary particle sensor assembly, characterized in that the rotation relative to the rotation axis with respect to the cover guide. The method of claim 3, The particle sensor cover guide is a rotating particle sensor assembly, characterized in that the fixing piece can be fixed to the inside of the air cleaner.

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