JP2000146217A - Indoor machine of air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce any vibration in an indoor machine casing occurred owing to rotary vibration force of an air fan apparatus as exciting force without use of a means for high rigidity and attenuation application to a casing in an indoor machine of an air conditioner. SOLUTION: Taking notice of a specific natural vibration mode with which vibration of a casing is emphasized, a revolution center of an air fan apparatus 1, 2 supported in the casing is defined at a position where a loop of the natural vibration mode is avoided, and vibration response magnification is reduced, compared with the case where a rotation center point of the air fan apparatuses 1, 2 is existent at a loop of the vibration mode. Thus, vibration of the top plate is reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an indoor unit of an air conditioner, and more particularly to an indoor unit case in which a rotational vibration force due to an unbalance of a blower fan constituting an air blower of the indoor unit is generated as an exciting force. It is suitable for a structure that reduces body vibration.

[0002]

2. Description of the Related Art As a structure for lowering the vibration of a housing of an air conditioner, those described in, for example, JP-A-2-57791, JP-A-3-271640 and JP-A-4-52428 are known. ing.

In Japanese Patent Application Laid-Open No. 2-57791, aluminum, paper,
A resin or the like processed into a honeycomb structure is used as an aggregate and adhered to a pair of panels to increase the rigidity of the housing and reduce the vibration of the housing.

In Japanese Patent Application Laid-Open No. 3-271640, the rigidity of the housing is increased by forming the panel constituting the housing with a panel having an air layer formed by a center core and a flat plate sandwiching both sides thereof. In this case, the vibration of the housing is reduced.

[0005] In Japanese Patent Application Laid-Open No. Hei 4-52428, the housing is made to have low vibration by using a material having good vibration damping characteristics in which a resin or the like is sandwiched between two metal plates. ing.

[0006]

SUMMARY OF THE INVENTION In an indoor unit of an air conditioner, it is an object of the present invention to reduce the vibration of a housing which is generated by the rotational vibration force due to the unbalance of a blower fan constituting a blower as an exciting force. It is one. This housing vibration propagates from the beam in the ceiling where the indoor unit is installed to the ceiling and the floor on the floor, and it is indispensable to humans.

In this vibration, the rotational vibration force due to the imbalance of the blower / fan is transmitted to the case supporting the blower / fan and the fan driving motor, and the case vibrates. In particular, when the natural frequency of the housing matches the rotational frequency of the blower / fan, the resonance significantly increases the vibration of the housing.

In order to prevent an increase in vibration at the time of resonance,
As described in the prior art, means for increasing the rigidity of the housing and increasing the natural frequency to make the fan rotational frequency avoid resonance, and increasing the attenuation of the housing to reduce vibration at resonance. Means have been commonly used.

The problem with these means is that high rigidity and light weight are generally contradictory issues to the need for light weight when installing indoor units in the ceiling. In addition, in response to the need for low cost, the addition of attenuation to the housing may lead to an increase in cost.

An object of the present invention is to focus on the exciting force propagating in the housing without using means for lowering the vibration on the housing side such as increasing the rigidity of the housing and adding damping. The goal is to reduce vibration.

[0011]

SUMMARY OF THE INVENTION The present invention focuses on the natural vibration mode of a housing which resonates with the rotational frequency of a blower fan, and places the blower at a position avoiding the antinode of the natural vibration mode of the housing. Attach it. Thus, the vibration response magnification of the housing is lower than when the blower is mounted on the antinode of the vibration mode, and the vibration of the housing can be reduced.

[0012]

FIG. 1 is a block diagram showing an embodiment of the present invention.
This will be described with reference to FIG.

FIG. 1 shows an indoor unit of an air conditioner according to an embodiment of the present invention. FIG. 2 is a sectional view taken on line AA of FIG.
It is a figure showing a sectional view. FIG. 3 is a diagram showing a natural vibration mode of a housing of an indoor unit, FIGS. 4 and 5 are diagrams showing mounting positions of a blower, which is a main part of the present invention, and FIG. 6 is a housing to which the present invention is applied. It is a figure showing a frequency response result of vibration.

First, the configuration of an indoor unit of an air conditioner is shown in FIGS.
This will be described with reference to FIG. Here, an air conditioner using two sets of blowers will be described. Blowers 1 and 2 which are main parts of the present invention are composed of blower / fan fans 3 and 4 and fan drive motors 5 and 6, and are provided with blower / fan fan 3, fan drive motor 5 and blower fan 4. Blowers 1 and 2 are constituted by the fan drive motor 6, respectively. The blowers 1 and 2 are supported by a top plate 8 constituting a housing of the indoor unit via rubber 7 for vibration and vibration isolation of a fan drive motor. A heat exchanger 9 is arranged on the outer periphery of the blower, and the heat exchanger 9 is also supported by the top plate 8.

Further, a water receiver 10 for drain water is placed below the heat exchanger 9. The housing of the indoor unit includes a top plate 8 and four side plates 11. Although the indoor unit is not shown,
It is suspended in the ceiling of the building by the mounting brackets and the suspension bolts provided on the side plate 11, so that only the decorative panel 12 can be seen from the room.

FIG. 3 is a diagram showing the main natural vibration modes of the housing of the indoor unit. Among the natural vibration modes of the housing, the mode in which the blowers 1 and 2 serving as heavy objects and the top plate 8 supporting the heat exchanger 9 vibrate appears as the mode having the lowest frequency. Therefore, only the top plate 8 is shown in FIG.

As shown in FIG. 3, the vibration at the center of the top plate 8 is the largest, and the top plate 8 and the blowers 1 and 2 vibrate vertically (in the direction of the motor shaft).

The natural frequency of the present vibration mode is close to the rotational frequency of the blower fan, and is likely to affect the vibration of the housing. The natural frequency of the natural vibration mode of the other housing is away from the rotational frequency of the blower / ventilation fan, and has little effect on the housing vibration.

FIGS. 4 and 5 are views showing the mounting position of the blower on the top plate 8, which is a main part of the present invention. These drawings are simplified diagrams showing only the top plate 8, the mounting positions 13 and 14 of the blower, and the rotation centers 15 and 16 in FIG. In the figure, the installation positions 13 and 1 of the blower are shown.
4 is indicated by ○, and the rotation center points 15 and 16 of the blower are indicated by ×. For convenience, an X-Y coordinate system in which the center of the top plate 8 is the origin, the axis parallel to the long side of the top plate 8 is the X axis, and the axis parallel to the short side is the Y axis, ,explain.

In FIG. 4, the rotation center point 1 of the blowers 1 and 2 is shown.
X, which is the central axis of the short side of the top 8, is denoted by 5 and 16 (× in the figure).
The blowers 1 and 2 are attached to the top plate 8 so as to be located at positions avoiding on the axis (Y = 0). Further, in FIG. 4, the rotation center points 15 and 16 of the blowers 1 and 2 are mounted such that they do not coincide with each other in the Y coordinate.

In FIG. 5, similarly to FIG. 4, the blowers 1 and 2 are mounted on the top plate 8 so that the rotation center points 15 and 16 of the blowers 1 and 2 are located at positions avoiding the X axis (Y = 0). It is attached to. In FIG. 5, the rotation center point 1 of the blowers 1 and 2 is shown.
5 and 16 are attached so that they coincide in the Y coordinate.

Here, the effects of the present invention will be described.

As described above, FIG. 3 shows a vibration mode which affects the vibration of the housing.

In the vibration mode shown in FIG. 3, the X-axis (Y = 0) and the Y-axis (X = 0) of the top plate 8 in the XY coordinate system defined in FIGS. This is the antinode of the vibration mode, and the vibration becomes maximum at the center of the top plate 8 where the origin (X, Y) = (0, 0).

For this reason, when the rotation center of the blower is set on the X-axis and the Y-axis, the top
The vibration response magnification of the top plate increases, and the vibration of the top plate increases. In the present invention, as shown in FIG. 4 and FIG. 5, in order to arrange the rotation center point of the blower at a position avoiding on the X axis and the Y axis, the vibration response magnification of the top plate 8 with respect to the exciting force is changed. It is possible to reduce the size, and the vibration of the top plate can be reduced.

FIG. 6 shows a vibration frequency response result of the top plate 8 when the present invention is applied. Here, the blowers 1, 2
4 shows the case of FIG. For comparison, FIG. 4 also shows the results when the rotation center points of the blowers 1 and 2 are on the X axis (Y = 0). The horizontal axis of the graph represents the rotational frequency (Hz) of the blowing fan, and the vertical axis represents the vibration at the center of the top plate (origin) where the vibration is greatest.

In FIG. 6, the natural frequency of the vibration mode shown in FIG. 3 is the same as in FIG. 4 and when the rotation center point of the blowers 1 and 2 is on the X axis (Y = 0). f
_{Since it is} near ₁ (Hz), the vibration displacement of the top plate tends to increase when the blower / fan rotation frequency is near f ₁ (Hz).

Comparing the maximum displacement at resonance in the two cases, the case of the mounting position in FIG. 4 is 3.35 (mm), and the rotation center point of the blowers 1 and 2 is on the X axis (Y = 0). In some cases, the value is 3.85 (mm), and it can be seen that by applying the present invention, the vibration of the top plate at the time of resonance can be reduced. In the case of FIG. 4, the rotation center points of the blowers 1 and 2 are on the X axis (Y =
0), the natural frequency can be made slightly higher than in the case where the fan rotation frequency is lower than the resonance frequency.
It can be seen that the vibration of the top plate can be reduced.

Although the description is omitted here, the vibration of the top plate can be reduced at the blower installation position in FIG. 5 as in FIG.

As described above, by applying the present invention,
The vibration of the top plate can be reduced without using any means for increasing the rigidity of the top plate or adding damping.

FIG. 7 is a block diagram of an indoor unit blower showing another embodiment of the present invention. Up to now, the indoor unit of the air conditioner in which a plurality of blowers composed of one blower fan and one fan drive motor are supported on the top plate has been described. As shown in (1), the vibration reduction of the housing of the indoor unit having a blower including a plurality of (here, two) blower fans and one fan drive motor will be described.

In FIG. 7, the blower is a blower fan 1.
7 and 18 are connected by a rotation transmission belt 19,
These are the fan drive motor 20 and the rotation transmitting belt 2
1 is connected. In FIG. 7, the unbalanced positions 22, 23 of the fans are indicated by ●.
Here, the unbalanced positions 22 and 23 of the blower / fans 17 and 18 are shifted by 180 degrees with respect to the rotation direction of the blower / fan, and the blower / fans 17 and 18 are attached to the rotation transmission belt 19. Attached. Although not shown here, the rotation shaft 23 of the blower / ventilation fans 17 and 18 and the mounting feet 24 (4
) Is attached to the top plate 8.

The effect of the present invention will be described with reference to FIG.

The unbalance position of the blower fan can be measured in advance to adjust the balance in the manufacturing process. The blower shown in FIG. 7 is configured to be attached to the rotation transmitting belt 19 with the unbalanced positions of the blowers 17 and 18 shifted.

By displacing the unbalanced positions of the two blower fans, the rotational vibration force acts in a direction to cancel the rotational vibration force of the other blower fan. As a result, the natural vibration mode of the top plate shown in FIG. 3 described above becomes a mode of the exciting force that is hard to excite, and the vibration of the top plate can be reduced.

In the configuration of the blower shown in FIG. 7, since the two blowers are attached to the rotation transmitting belt 19, the unbalanced positional relationship between the two blowers is independent of the operation and stoppage of the indoor unit. It is invariable and can stably reduce the vibration of the top plate.

FIG. 8 shows the result of the vibration frequency response of the top plate when the present invention is applied. Here, the blower / fan fan 17
FIG. 7 shows the results when the unbalanced positions are not shifted with respect to the fan rotation direction and the case where the unbalanced positions are shifted by 180 degrees as shown in FIG. In the graph, similarly to FIG. 6, the horizontal axis represents the rotational frequency (Hz) of the blower fan, and the vertical axis represents the vibration at the center of the top board (origin) where the vibration is greatest.

FIG. 8 shows that when the unbalanced positions of the blowers 17 and 18 are shifted, the vibration of the top plate can be reduced in all the rotational frequencies of the blowers.

FIG. 9 is a block diagram of an indoor unit blower showing another embodiment of the present invention. The figure shows one blower fan 2
FIG. 3 is a diagram in which two sets of blowers 29 and 30 each composed of a fan drive motor 27 and 28 and one fan drive motor 27 and 28 are supported by a top plate 8.

As described in the description of FIGS. 7 and 8, even in such a configuration, the unbalance positions 31, 32 of the two blower / fan fans are shifted with respect to the fan rotation direction.
By operating the fan, the vibration of the top plate can be reduced. Further, as described in the description of FIGS. 7 and 8, the vibration can be reduced most when the unbalance positions of the two blower / fan fans are shifted by 180 degrees.

As a method of shifting the unbalanced position of the two blower fans, a detector for detecting the unbalanced position of the fan is provided, and based on the detection signal, the unbalanced position is controlled by controlling the fan driving motor. There is a method of correcting the position so that the position is shifted by 180 degrees. In addition, a non-rotating body such as a top plate has a lock function for stopping the unbalanced positions of the two blower fans at a position shifted by 180 degrees when the operation is stopped. There is also a method of starting the operation in a state where the unbalance position of the blowing fan is shifted by 180 degrees.

[0042]

According to the present invention, the vibration response magnification of the tabletop becomes smaller than when the center of rotation of the blower is at the antinode of the natural vibration mode that adversely affects the vibration of the housing. The vibration of the plate can be reduced.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an indoor unit of an air conditioner showing an embodiment of the present invention.

FIG. 2 is a sectional view taken along line AA of FIG.

FIG. 3 is a diagram showing a natural vibration mode of a housing of the air conditioner indoor unit.

FIG. 4 is a view showing a position of a blower supporting a top plate, which is a main part of the present invention.

FIG. 5 is a view showing a position of a blower supporting a top plate, which is a main part of the present invention.

FIG. 6 is a characteristic diagram showing a vibration frequency response of a top plate when the present invention is applied.

FIG. 7 is a configuration diagram of a blower showing another embodiment of the present invention.

FIG. 8 is a characteristic diagram showing a vibration frequency response of a top plate when the present invention is applied.

FIG. 9 is a configuration diagram of a blowing device showing another embodiment of the present invention.

[Explanation of symbols]

1, 2, ... blower, 3, 4 ... blower fan, 5, 6 ... fan drive motor, 8 ... top plate, 13, 14 ... blower mounting position, 15, 16 ... rotation center of blower, 2
2, 23, 31, 32 ... unbalanced position.

 ──────────────────────────────────────────────────の Continuing on the front page (72) Inventor Yoshiki Hata 390 Muramatsu, Shimizu-shi, Shizuoka Prefecture Inside the Air Conditioning Systems Division, Hitachi, Ltd. (72) Inventor Shinichi Kosugi 390 Muramatsu, Shimizu-shi, Shizuoka Pref.Hitachi, Ltd.Air Conditioning Systems Division (72) Inventor Hiroshi Ishii 502, Kachitachi-cho, Tsuchiura-City, Ibaraki Pref. ) 3L050 BA01

Claims (7)

[Claims] 1. An air conditioner indoor unit comprising a blower / suctioner, a heat exchanger, and a housing supporting the same, wherein the blower / suctioner comprises one blower / fan and one fan drive motor. Having at least one set of blowers, wherein the blower is supported on a top plate constituting the housing,
An indoor unit for an air conditioner, wherein at least one of the axis of symmetry of the top plate and a rotation center point of the blower are separated from each other. 2. An indoor unit of an air conditioner, comprising: an air blowing / absorbing means, a heat exchanging means, and a casing supporting the air blowing / absorbing means, wherein the air blowing / absorbing means comprises one air blowing fan and one fan driving motor. And at least one pair of blowers, wherein the blower is supported on a substantially rectangular top plate constituting the housing, wherein a line connecting midpoints of opposed long sides of the top plate and the blower are provided. An indoor unit for an air conditioner, wherein a rotation center point of the device is separated from the indoor unit. 3. An indoor unit of an air conditioner, comprising: an air blowing / absorbing means, a heat exchange means, and a housing for supporting the air blowing / absorbing means, wherein the air blowing / absorbing means comprises one air blowing fan and one fan driving motor. And at least one pair of blowers, wherein the blower is supported on a generally rectangular top plate constituting the housing, wherein a line connecting midpoints of opposite short sides of the top plate and the blower are provided. An indoor unit for an air conditioner, wherein a rotation center point of the device is separated from the indoor unit. 4. An air conditioner indoor unit comprising: a blower / suction unit, a heat exchange unit, and a housing for supporting the unit, wherein the blower / suction unit includes at least two blower / fan fans and one fan drive unit. A blower comprising a motor, wherein two blower fans are mounted on a belt chain rotation transmitting member,
In a configuration in which the motor is connected to a fan driving motor,
An indoor unit for an air conditioner, wherein two air blowing fans are mounted on a rotation transmitting member by displacing an unbalanced position of two air blowing fans with respect to a fan rotation direction. 5. An apparatus according to claim 4, wherein the unbalance positions of the two blowers are shifted by 180 degrees with respect to the fan rotation direction, and the two blowers are mounted on the rotation transmitting member. An air conditioner indoor unit characterized by the following. 6. An indoor unit of an air conditioner, comprising: an air blowing / absorbing means, a heat exchanging means, and a housing supporting the air blowing / absorbing means, wherein the air blowing / absorbing means comprises one air blowing fan and one fan driving motor. In the configuration in which the blower is supported by a top plate forming the housing, the unbalanced position of the blower and fan forming the two sets of blowers is set in the fan rotation direction. An indoor unit of an air conditioner characterized by being shifted from the indoor unit. 7. An air conditioner according to claim 6, wherein the unbalanced positions of the air blowing fans constituting the two sets of blowing devices are shifted by 180 degrees with respect to the fan rotation direction. Indoor unit.