KR20050074065A - Vibration reduction apparatus and method for compressor - Google Patents

Abstract

The present invention relates to a compressor vibration reduction device and a control method thereof, and in particular, the present invention actively reduces the vibration of the compressor regardless of the change in the rotational speed of the compressor motor to reduce the noise caused by the compressor vibration.

To this end, the apparatus for reducing vibration of a compressor includes a rotational speed sensing unit for detecting a rotational speed of a compressor motor, a vibration generation unit for generating vibrations by an electrical signal, and a vibration of the compressor corresponding to the detected rotational speed of the compressor motor. And a controller for driving the vibration generator to generate phase vibration to cancel the vibration.

Therefore, the present invention can actively reduce the vibration of the compressor even if the rotational speed of the compressor motor is changed, thereby reducing the noise caused by the compressor vibration.

Description

Compressor vibration reduction device and control method {Vibration reduction apparatus and method for compressor}

The present invention relates to a compressor vibration reduction device and a control method thereof, and more particularly, to a compressor vibration reduction device and a control method for reducing the noise caused by the compressor vibration by reducing the vibration of the compressor.

In general, the compressor includes a casing for forming a receiving space for compressing a refrigerant therein and a receiving space such as a compressor motor part for providing a driving force to the compression part, and through a bracket provided under the casing to support the casing. It is installed on the bottom surface.

The compressor repeats a process of sucking, compressing, and discharging the refrigerant while the piston inside the cylinder is linearly moved by the rotational movement of the compressor motor. Vibration is generated by the rotational movement of the compressor motor.

Therefore, in the conventional compressor vibration reduction device, the bracket is formed of a plate-like member, and through-holes are formed in each corner region through the plate surface, and the bracket is installed on the bottom surface via a spring member for vibration reduction. The vibration of the compressor is attenuated using a spring member.

However, since the spring member does not sufficiently offset the vibration of the compressor, other compressor vibration reducing devices install a piezoelectric vibrator instead of the spring member, and the piezoelectric sensor is installed on the bottom surface so as to detect the vibration signal of the compressor. I am preparing.

Therefore, in the conventional method, after operating the compressor for a predetermined time, the vibration signal of the compressor is detected through a piezo sensor, and the vibration signal is canceled by outputting to a vibrator having a phase opposite to the detected vibration signal.

However, this conventional method outputs a vibration signal of a phase opposite to the vibration signal of the compressor which is initially determined regardless of the rotational speed of the compressor motor to cancel the vibration. Alternatively, when changing from a low speed to a high speed, there is a problem in that the vibration of the compressor cannot be effectively canceled.

In addition, since the detection value of the piezo sensor is affected not only by the vibration of the compressor but also by the vibration of the exciter, it is difficult to change the control value of the exciter after the exciter is operated. There is a problem that is difficult to effectively attenuate.

The present invention is to solve the above problems, an object of the present invention is to reduce the noise caused by compressor vibration by actively reducing the vibration of the compressor irrespective of the rotational speed of the compressor motor and its control To provide a way.

Compressor vibration reducing device of the present invention for achieving the above object is a compressor vibration reducing device for reducing the vibration of the compressor by generating a vibration opposite to the vibration of the compressor, to detect the rotational speed of the compressor motor in the compressor Rotational speed sensing unit, a vibration generating unit for generating a vibration by an electrical signal, driving the vibration generating unit to generate a vibration in the phase opposite to the vibration of the compressor corresponding to the detected rotational speed of the compressor motor And a control unit.

In addition, the compressor motion reduction method of the present invention in the compressor vibration reduction method for reducing the vibration of the compressor by generating a vibration opposite to the compressor vibration, detecting the actual rotational speed of the compressor motor in the compressor, the detected compressor The vibration of the compressor corresponding to the actual rotation speed of the motor is determined, and a vibration having an opposite phase to the determined vibration of the compressor is characterized in that the vibration is canceled out.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 is a schematic configuration diagram of a compressor vibration reducing device according to an embodiment of the present invention. 2 is a front view of a compressor vibration reduction device according to an embodiment of the present invention. As shown in FIGS. 1 and 2, the compressor 1 is bottomed through a bracket 2 provided under the compressor 1 so as to support the lower part of the compressor 1 having the variable speed compressor motor 4. 3) is fixedly installed.

The bracket 2 is formed of a plate member, and through holes 2a penetrating the plate surface are formed in each corner region of the plate member. Vibration excitation devices 5a to 5d are provided between the through holes 2a and the bottom surface 3 to generate vibrations to cancel the vibrations of the compressor.

When the compressor 1 operates, the vibration of the compressor occurs in the vertical direction as shown by the arrow direction of FIG. 2, and when the output of the compressor 1 changes and the rotational speed of the compressor motor 4 changes, the vibration of the compressor 1 is changed. The degree will vary. Therefore, the vibration direction of the vibrators 5a to 5d is made to be opposite to the vibration direction of the compressor 1 so as to cancel the vibration of the compressor 1 by the vibrations generated by the vibrators 5a to 5d. When the apparatuses 5a to 5d are driven, and the degree of vibration generated by the vibrators 5a to 5d is changed in consideration of the vibration of the compressor which depends on the rotational speed of the compressor motor 4, the changed compressor 1 Vibration can be actively reduced.

Then, on the bottom surface 3 adjacent to the vibrators 5a to 5d, the vibration of the compressor can detect the residual vibration of the remaining compressor 1 without being canceled by the vibration generated by the vibrators 5a to 5d. Piezoelectric sensors (6a to 6d) for detecting the vibration ringing on the bottom surface 3 is installed so that.

Based on the vibration values detected through the piezoelectric sensors 6a to 6d, the vibration level of the compressor can be detected without remaining canceled by the vibrations generated by the exciters 5a to 5d. By fine-adjusting the vibration degree of the exciter 5a-5d based on this, even the vibration of the remaining compressor can be cancelled.

3 is a control block diagram of a compressor vibration reduction device according to an embodiment of the present invention. As shown in FIG. 3, the apparatus for reducing vibration of a compressor according to an exemplary embodiment of the present invention includes a controller 10 that performs overall control for reducing compressor vibration.

The rotational speed detecting unit 20 for sensing the rotational speed of the compressor motor 4 is electrically connected to the input side of the control unit 10. The rotational speed detection unit 20 detects the rotational speed of the compressor motor 4 based on the voltage value input to the compressor motor 4 as an example.

In addition, the output side of the control unit 10 is electrically connected to the vibration generating unit 30 for generating a vibration to counteract the vibration of the compressor to cancel the vibration. The vibration generator 30 is, for example, an exciter 5a to 5d for generating vibration by an electrical signal using a piezoelectric element method.

Therefore, when the rotational speed of the compressor motor 4 is changed during the operation of the compressor 1, the controller 10 detects the rotational speed of the compressor motor 4 through the rotational speed detection unit 20, and detects the rotational speed of the compressor 1. Vibration is canceled by driving the vibration generator 30 to generate vibrations in phase opposite to the corresponding compressor vibrations.

To this end, the input and output side of the control unit 10 is electrically connected to the storage unit 40 that stores in advance the vibration signal representing the vibration of the compressor corresponding to the rotational speed of the compressor motor (4). The vibration signal of the compressor 1 is a waveform signal in which the horizontal axis represents frequency and the vertical axis represents amplitude.

In summary, when the rotational speed of the compressor motor 4 is changed, the controller 10 detects the changed rotational speed through the rotational speed detecting unit 20 and then stores the vibration signal of the compressor corresponding to the detected rotational speed. 40, and outputs a vibration signal of a phase opposite to the determined vibration signal of the compressor 1 to the vibration generator 30 so that the vibration generator 30 vibrates opposite to the vibration of the compressor 1. The vibration of 1) is canceled by the vibration generated by the vibration generating unit 30.

On the other hand, on the input side of the control unit 10, the vibration sensing unit 50 for detecting the vibration ringing on the bottom surface 3 so as to detect the remaining vibration degree without being canceled by the vibration generated by the vibration generating unit 30 Is electrically connected. The vibration detecting unit 50 is, for example, piezoelectric sensors 6a to 6d which output vibrations as electrical signals by piezoelectric elements.

Therefore, the controller 10 detects the vibration degree remaining without the vibration of the compressor 1 being canceled by the vibration generated by the vibration generator 30 based on the vibration value detected through the vibration detector 50. Since the vibration degree of the vibration generating part 30 is finely adjusted based on this vibration value, even the vibration of the remaining compressor is cancelled.

Figure 4 is a control flow diagram for a method for controlling a compressor vibration reduction device according to an embodiment of the present invention. Referring to FIG. 4, in the operation mode 100, the controller 10 detects the rotation speed of the compressor motor 4 through the rotation speed detection unit 20.

In the operation mode 110, the control unit 10 transmits the vibration of the compressor 1 corresponding to the rotation speed of the compressor 1 stored in the storage unit 40 to correspond to the rotation speed of the compressor motor 4 detected in the operation mode 100. Determined based on the signal.

In the operation mode 120, the controller 10 cancels the exciter vibrations generated by the vibrations 5a to 5d of the compressor 1 generated at the rotational speed of the compressor motor 4 detected in the operation mode 100. The exciter vibrations are generated by driving the exciters 5a to 5d in phase opposite to the vibration of the compressor 1 determined in the operation mode 110.

In the operation mode 130, the controller 10 detects residual vibration of the compressor 1 that is not canceled by the exciter vibration.

In operation mode 140, the controller 10 compares the residual vibration A of the compressor 1 detected in the operation mode 130 with a preset reference value for determining the residual vibration of the compressor 1. And, if they do not coincide with each other, in the operation mode 150, the control value output to the exciters 5a to 5d is changed to change the vibrator vibration.

On the other hand, if they coincide with each other, in the operation mode 160, the control unit 10 determines whether the rotational speed of the compressor motor 4 is changed by changing the output of the compressor 1. If the rotational speed of the compressor motor 4 is not changed, the operation mode 140 is returned. If the rotational speed of the compressor motor 4 is changed, the operation mode 100 is returned to actively reduce the vibration of the compressor 1. Let's do it.

As described in detail above, the present invention can actively reduce the vibration of the compressor even if the rotational speed of the compressor motor is changed, thereby reducing the noise caused by the compressor vibration.

In addition, the present invention can significantly reduce the vibration of the compressor can minimize the impact of the compressor vibration has the effect of extending the life of the compressor.

1 is a schematic configuration diagram of a compressor vibration reducing device according to an embodiment of the present invention.

2 is a front view of a compressor vibration reduction device according to an embodiment of the present invention.

3 is a control block diagram of a compressor vibration reduction device according to an embodiment of the present invention.

Figure 4 is a control flow diagram for a method for controlling a compressor vibration reduction device according to an embodiment of the present invention.

* Description of the code for the main functions of the drawings

1: compressor 2: bracket

3: bottom surface 4: compressor motor

5a ~ 5d: Exciter 6a ~ 6d: Piezo sensor

10: control unit 20: rotation speed detection unit

30: vibration generating unit 40: storage unit

50: vibration detection unit

Claims (5)

In the compressor vibration reduction device for generating a vibration opposite to the vibration of the compressor to reduce the vibration of the compressor, Rotational speed detection unit for sensing the rotational speed of the compressor motor in the compressor, Vibration generating unit for generating a vibration by an electrical signal, And a controller configured to drive the vibration generator to cancel vibration by generating vibrations in phase opposite to the vibration of the compressor corresponding to the detected rotational speed of the compressor motor. The apparatus of claim 1, wherein the compressor vibration reducing device includes a storage unit which stores in advance a vibration signal representing vibration of the compressor generated at each rotational speed of the compressor motor, and the controller is in phase with the vibration signal stored in the storage unit. Compressor vibration reducing device characterized in that for driving the vibration generating unit by generating a vibration signal having a. The apparatus of claim 1, wherein the compressor vibration reducing device further includes a vibration sensing unit configured to detect residual vibration of the compressor that is not canceled by the vibration generated by the vibration generating unit, and the control unit is detected through the vibration sensing unit. Compressor vibration reducing device, characterized in that for varying the degree of vibration generated in the vibration generating unit according to the vibration value. In the compressor vibration reduction method for generating a vibration opposite to the compressor vibration to reduce the vibration of the compressor, Detect the actual rotational speed of the compressor motor in the compressor, Determine the vibration of the compressor corresponding to the actual rotational speed of the detected compressor motor, Compressor vibration reduction method characterized in that for generating a vibration having a phase opposite to the determined vibration of the compressor to cancel the vibration. The method of claim 4, further comprising: detecting residual vibration that is not canceled out during vibration of the compressor, Compressor vibration reduction method characterized in that for varying the degree of vibration generated for the compressor vibration cancellation based on the detected residual vibration value.