KR19980076530A - Refrigerator fan noise, flow measurement device - Google Patents

Abstract

The present invention relates to a fan noise and a flow rate measuring device of a refrigerator, and conventionally, by randomly adopting a randomly designed fan without special criteria in the fan design employed in the refrigerator, the noise, flow rate, and the like, which are inherent characteristics of the fan, are different. Differently, after being adopted in the refrigerator, problems such as deterioration of the cooling performance of the refrigerator due to various noises and lowering of the flow rate have been caused.

Accordingly, the present invention is to provide an experimental apparatus that can calculate the design criteria optimized for noise and flow rate for each fan employed in accordance with the model of the refrigerator, in order to solve this conventional problem, the static pressure in the room A closed chamber is provided with a wire mesh to be maintained and a split pin with a nozzle in the center and a radially vented hole, and an experimental fan is installed in the main housing installed at one side thereof to install the variable motor and the other side thereof. It consists of an auxiliary motor equipped with an auxiliary fan which is installed in the auxiliary housing and whose air volume is controlled by a damper, and a static pressure measuring instrument which is projected downward out of the sealed chamber at the bottom of the sealed chamber between the main housing and the static pressure adjusting wire mesh. The noise and flow rate of the fan rotated by the variable motor drive of the main housing are measured by a microphone installed in front of it. Uh is the ever quantitative analysis is possible.

Description

Refrigerator fan noise, flow measurement device

The present invention relates to a blower fan for inducing and blowing cold air generated in a cooling chamber into a corresponding refrigerator of a refrigerator, a noise of a cooling fan employed to cool a machine room, and a flow rate measuring apparatus thereof. The present invention relates to a configuration of a measuring device for model design that optimizes the noise and flow rate of a fan employed according to each model.

Conventionally, since the design is randomly adopted without the design criteria of the fan employed in the refrigerator and adopted in the refrigerator, management of noise, flow rate (i.e., air volume), etc., which are inherent to the fan, is poor, and thus the fan employed in the young model of the refrigerator is optimized There has been a problem that the noise generated by the refrigerator is large and the cooling performance is greatly reduced.

The present invention was created in view of the above-described problems, and has been made to solve this problem, and is provided with an experimental device capable of quantitatively measuring noise and flow rates for various types of fans employed in each part of the refrigerator. It is a technical task to optimize the fan employed in the model.

1 is a schematic perspective view showing a closed chamber of the present invention.

2 is a flow chart showing the flow of the experimental process according to the present invention

Figure 3 is a block diagram of the noise measuring device of the present invention.

* Description of the symbols for the main parts of the drawings *

1 ... anechoic chamber 10 ... airtight chamber

20 ... Main housing 22 ... Variable motor

24. Experimental fan 30 ... Auxiliary housing

32 ... auxiliary motor 34 ... auxiliary fan

40 ... static wire mesh 50 ... part plate

52 ... Nozzle 56 ... Vent

60 ... static pressure gauge 62 ... measuring hose

66 ... Tester 70 ... Variable Damper

72 ... damper flap 76 ... adjustment knob

90 ... microphone 92 ... charge amplifier

94 ... frequency analyzer 96 ... recorder

In order to realize the above technical problem, in order to configure the noise of the refrigerator fan, the flow rate measuring device in the anechoic chamber, the microphone connected to the charge amplifier and frequency analyzer, the recorder for measuring and analyzing the noise in front of the experimental fan for measurement A variable motor having a laboratory fan installed in a main housing fixed to one end of a sealed chamber in which a wire mesh and a partition plate are installed therein, and a blower pressure of the variable motor at the bottom surface of the sealed chamber to measure the blowing pressure. And an auxiliary motor equipped with an auxiliary fan having a constant pressure measuring hole formed therein and an auxiliary fan in which a predetermined flow rate is introduced into an auxiliary housing fixed to the other end of the sealed chamber so as to blow air into the sealed chamber, and the air volume thereof is controlled by a damper. do.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment according to the present invention will be described in more detail.

Figure 1 shows the shape of the sealed chamber 10 equipped with the experimental apparatus according to the present invention installed in the anechoic chamber (1), Figure 2 is the noise measured by the apparatus according to the present invention is analyzed through the microphone 90 Figure 3 is a block diagram showing the process, Figure 3 shows the process of controlling the experimental apparatus according to the present invention.

The present invention as shown in Figure 1, the sound distribution in the room to be uniform, and the reverberation time is shortened without reverberation is configured shortly reverberation chamber (1) designed to be thoroughly soundproof sealed chamber (10) Is provided, but in front of the main housing 20, the experimental fan 24 is installed, for example, about 100mm in front of the microphone 90 for converting the sound pressure of the acoustic energy into electrical energy is installed.

In addition, the sealed chamber 10 is manufactured in a box shape that is movable in the anechoic chamber 1, and at one side thereof, the main housing 20 having a variable motor 22 in which an experimental fan 24 is axially coupled. Is provided, the other end is provided with a damper 70 is provided with a damper flap 72 is opened and closed by the adjustment knob 76, the auxiliary fan 34 is coupled behind the damper 70 Auxiliary housing (30) having a built-in auxiliary motor 32 is provided.

In addition, a plurality of wire meshes 40 and nozzles 52 are formed in the center in the direction of the installation position of the auxiliary housing 30 from the installation position of the main housing 20 in the sealed chamber 10 and along the outer circumference thereof. A partition plate 50 having a radially open vent hole 56 is provided.

In addition, the positive pressure measuring hole 60 is drilled in the bottom surface of the sealed chamber 10 between the main housing 20 is installed and the wire mesh 40 installation position to guide the inside of the sealed chamber 10 to the static pressure. A measuring hose 62 is fitted and connected to the pressure tester 66.

On the other hand, the lead wire of the microphone 90 drawn out of the anechoic chamber 1 is connected to the recorder 96 through the charge amplifier 92 via the frequency analyzer 94.

According to the present invention having the above configuration, the variable motor 22 having the experiment fan 24 mounted therein is installed in the main housing 20 formed at one end of the sealed chamber 10, and the variable motor 22 is installed. The test fan 24 is rotated to drive the air inside the sealed chamber 10 to the outside of the sealed chamber 10 at a predetermined pressure.

The wind pressure at this time is measured by the tester 66 through a measuring hose 62 connected to the static pressure measuring hole 60 installed on the bottom surface of the sealed chamber 10. Therefore, by using the wind pressure measured by the tester 66, the flow rate can be quantified by the table converted according to Bernoulli's theorem.

Here, the wire mesh 40 installed inside the sealed chamber 10 is an induction action to achieve a constant pressure by allowing the flow of air to be spread throughout the entire space, the partition plate 50 is a nozzle 52 formed in the center thereof The air discharged through the air is dispersed without being connected and acts to be distributed through the ventilation hole 56.

In addition, about three minutes after driving the experimental fan 24 does not drive the auxiliary fan 34, which is a stabilization time to achieve a positive pressure inside the sealed chamber (10).

Subsequently, the damper flap 72 is opened and closed by manually or automatically adjusting the adjusting knob 76 while driving the auxiliary motor 32 installed in the auxiliary housing 30 to rotate the auxiliary fan 34. Adjust the airflow through

In this type of device, when the fan employed in the refrigerator has a high ALPM, the noise increases, and the noise increases relatively even when the flow rate is high, so that the flow rate related to the cooling performance is maintained at a constant level. It is intended to reduce the noise caused by the fan, and for this purpose, through the damper 70 and the auxiliary fan 34 installed in the auxiliary housing 30, the interior of the sealed chamber 10 is maintained at a substantially constant flow rate while maintaining the main housing ( 20) The variable motor 22 installed within the variable motor 22 can be changed to 1300 ~ 3000 to quantify the numerical value so that the design of the fan motor and the fan that can blow the air at a constant flow rate while generating the least noise is possible. It can be.

On the other hand, the noise measurement process by the fan, the noise measured in the microphone 90 installed about 100mm in front of the main housing 20 amplifies the signal through the charge amplifier 92, this signal is again a frequency analyzer 94 The graph is sent to the recorder 96 through) so that the increase or decrease of the noise is confirmed, thereby enabling quantitative analysis.

As described above, since the fan noise and flow rate measuring device of the refrigerator according to the present invention is installed and measured in the anechoic chamber, it is reliable in the measured data and clearly identifies the cause of the fine noise to design an optimized blower. By providing the consumer with a more comfortable refrigerator environment, the performance of the refrigerator can be further improved.

Claims (2)

Noise and flow rate of the refrigerator fan in the anechoic chamber 1 in which the charge amplifier 92, the frequency analyzer 94, and the microphone 90 connected to the recorder 96 are installed in front of the experimental fan 24 for measurement. In constructing the measuring device, A variable motor 22 having an experimental fan 24 installed in the main housing 20 fixed to one end of the sealed chamber 10 in which the wire mesh 40 and the partition plate 50 are installed therein; In order to measure the blowing pressure of the variable motor 22, the static pressure measuring hole 60 formed on the bottom surface of the sealed chamber 10 and the sealed chamber 10 to blow a predetermined flow rate into the sealed chamber 10. Of the refrigerator fan, which is composed of an auxiliary motor 32 mounted with an auxiliary fan 34 which is installed in the auxiliary housing 30 fixed to the other end of the damper 70 and whose air volume is controlled by the damper 70. Noise and flow measuring device. According to claim 1, wherein the static pressure measuring hole (60) is connected to the wind pressure tester (66) through a separate measuring hose 62, the noise of the refrigerator fan, flow rate measuring apparatus.