JP2011232003A - Fan chamber structure for air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fan chamber structure for air conditioner that requires no canvas of a fan chamber and an air supply chamber, and reduces a height of the fan chamber.SOLUTION: The fan chamber of air conditioner includes: a fan motor board disposed on a top section of a frame body of the fan chamber through a vibration-proof member, a fan driving motor and a fan unit mounted on the fan motor board so as to be suspended, an air-tight member disposed in a clearance gap between the frame body and the fan motor board, a bypass prevention plate made of a soft material disposed as an air-tight member so as to cover the clearance gap, and a backing plate made of a hard material brought into close contact with an inner side of the bypass prevention plate in a non-adhesion state to prevent deformation of the bypass prevention plate.

Description

  The present invention belongs to the technical field of a fan chamber structure of an air conditioner, in particular, a vibration isolation structure of a fan chamber and an airtight structure.

Conventionally, a fan motor unit is installed in a fan chamber of an air conditioner. In order not to transmit the vibration of the fan motor to the frame of the fan chamber, as shown in Patent Document 1, Patent Document 2, etc., the upper frame on which the fan motor is mounted has a vibration absorber such as a spring or rubber. An anti-vibration device (vibration isolation mechanism) is provided.
For example, in a conventional air conditioner, as shown in FIG. 5, in a fan chamber a, air conditioned air from a coil air-conditioning chamber b is supplied by a pair of fan units d driven by a motor unit c. e.
Since the fan unit d driven by the motor unit c generates vibration, it causes noise. For this reason, the vibration of the fan chamber a must be isolated from the frame of the entire air conditioner. Normally, the fan chamber a is mounted on a vibration isolation frame h provided on the fan frame f on the floor of the fan chamber a via a vibration absorbing member g. Is placed.

  At this time, the fan base f and the air supply chamber e of the fan chamber a are fixed. However, since the motor unit c, the fan unit d, and the anti-vibration base h vibrate, the fan unit d and the air supply chamber e are vibrated. The air in the room of the fan chamber a (Air.A) is sucked by the fan, resulting in a negative pressure. Therefore, if there is a gap between the fan chamber a and the air supply chamber e, air (Air.A) is sucked from the air supply chamber e, and a bypass is formed without passing through the coil air-conditioning chamber b. Therefore, the fan chamber a and the air supply chamber e are sealed with an airtight and flexible canvas i so that the fan chamber a and the air supply chamber e are kept airtight.

JP 2007-139414 A JP 2009-92034 A

By the way, the structure of the conventional fan chamber shown in FIG. 5 has a problem that it takes time and labor to attach the canvas i in order to make the airtightness between the fan chamber a and the air supply chamber e without transmitting vibration. In addition, as described above, in order to provide the motor unit c and the fan unit d, the motor unit c and the fan unit d must be mounted on the vibration isolation frame h provided on the fan frame f via the vibration absorbing member g. There is a problem that the height of the fan chamber a to the ceiling is considerably required, and the fan chamber a becomes large.
The present invention has been made in view of the above-mentioned problems, and eliminates the need for the canvas of the fan chamber and the air supply chamber, cuts off the transmission of vibrations, reduces noise, and lowers the height of the fan chamber. An object of the present invention is to provide a fan room structure of an air conditioner that can be used.

In order to solve the above problems, the invention of claim 1 is a fan chamber structure of an air conditioner, wherein a fan motor base is provided on an upper portion of a frame of the fan chamber via a vibration isolating member, A fan drive motor and fan unit are attached to the fan motor base so as to be suspended. An airtight member is provided in the gap between the frame and the fan motor base, and a bypass material made of a flexible material is used to cover the gap as the airtight member. A board is provided.
Invention of Claim 2 is a structure of the fan chamber of the air conditioning apparatus of Claim 1, Comprising: The joint surface of the said bypass prevention board and a fan motor base | substrate is adhesive-fixed, this bypass prevention board, a frame, The bonding surface is made in a non-adhered state only by contact pressure.
The invention of claim 3 is the structure of the fan chamber of the air conditioner according to claim 1 or claim 2, wherein a contact plate made of a hard material is brought into contact with the inside of the bypass prevention plate in a non-adhered state. The plate is fixed to the frame of the fan chamber so that the bypass prevention plate does not deform and does not contact the fan motor base.
The invention of claim 4 is the structure of the fan chamber of the air conditioner according to claim 3, wherein a protective packing is interposed between the inside of the bypass prevention plate and the backing plate. Features.
The invention of claim 5 is the structure of the fan chamber of the air conditioner selected from claims 1 to 4, wherein the position of the fan motor base of the bypass prevention plate and the joint surface is the joint with the frame. It is arranged inside the position of the surface, and the bypass prevention plate is provided in a skirt shape extending downward on the outer periphery of the fan motor base.

As described above, according to the invention of the fan chamber structure of the air conditioner of the first aspect, the fan motor base is provided on the upper portion of the fan chamber frame body of the fan chamber so that the fan drive motor and the fan unit are suspended. The fan base is unnecessary, making it possible to make it lower than the height of the conventional fan chamber, and as a hermetic member in the outer peripheral gap between the fan chamber frame and the fan motor base, preventing the bypass of flexible material Since the plate is provided, in addition to being able to cut off the transmission of vibration, a conventional airtight canvas is not required.
According to the invention of the fan chamber structure of the air conditioner of claim 2, in addition to the effect of the invention of claim 1, the fan motor base of the bypass prevention plate and the joint surface are bonded, and the joint surface with the frame is The non-adhesive state makes installation extremely easy, and vibrations can be completely blocked. In addition, the fan chamber is under negative pressure, so the bypass prevention plate is sucked into the fan chamber and the interface with the frame is not It is completely airtight even when bonded.
According to the invention of the structure of the fan chamber of the air conditioner according to claim 3, since the bypass prevention plate is a flexible material such as rubber, a hard plate such as metal is provided inside the bypass prevention plate. Deformation of the bypass prevention plate due to the negative pressure in the fan chamber can be prevented.
According to the invention of the fan chamber structure of the air conditioner of claim 4, in addition to the effect of the invention of claim 3, deformation of the bypass prevention plate is prevented and wear of the bypass prevention plate and the contact plate is prevented. be able to.
According to the fan chamber structure of the air conditioner of claim 5, in addition to the effects of the inventions of claims 1 to 4, the position of the fan motor base of the bypass prevention plate and the joint surface is the joint surface of the frame body. Since it is arranged on the inner side of the position, the joint surface with the frame body is securely adhered even in a non-adhered state, and the fan chamber and the air supply chamber are completely hermetically sealed.

The front view which shows the outline of the whole structure of the fan chamber of the air conditioning apparatus of Example 1 of this invention, 1 is a side view of FIG. 1 is an enlarged partial cross-section of the vibration isolating member and the airtight member of FIG. The expanded partial cross section of the airtight member of Example 2 of the present invention, It is explanatory drawing of the structure of the fan chamber of the conventional air conditioning apparatus.

  An embodiment of the structure of the fan chamber of the air conditioner of the present invention will be described with reference to the drawings.

FIG. 1 is a front view of a first embodiment showing an outline of a fan chamber 1 and an air supply chamber of an air conditioner A. FIG. 2 is a side view thereof, and a heat exchanger, a humidifier, and the like are provided in the fan chamber 1. The air-conditioned air from the coil air-conditioning chamber 7 is supplied to the air supply chamber 8 by the motor unit 3 disposed in the fan chamber 1 and the pair of fan units 4 driven thereby.
A fan motor base 12 is provided on the ceiling of the upper part of the fan chamber frame 11 of the fan chamber 1 via a vibration isolating member 5, and the motor unit 3 is suspended from substantially the center of the fan motor base 12. The motor unit 3 is provided with drive motors 32 with drive shafts 31 extending at both ends, and fan units 4 such as plug fans are suspended from the fan motor base 12 at the drive shafts 31 at both ends. Is provided.

The air damper chamber 81 on the upper surface of the fan motor base 12 of the fan chamber 1 forms a part of the air supply chamber 8, but the portion of the fan motor base 12 located on the ceiling of the fan unit 4 has the air supply chamber 8. A large air supply opening 13 communicating with the air damper chamber 81 is provided, and air from the fan unit 4 is blown to the air damper chamber 81 and the air supply duct 82. The fan unit 4 of the first embodiment incorporates a fan runner of a plug fan, and is arranged in a pair of left and right.
A plurality of anti-vibration members 5 are arranged at appropriate positions between the fan motor base 12 and the upper surface 1111 of the fan motor base receiving frame 111 of the fan chamber frame 11, and the anti-vibration members 5 themselves are as shown in FIG. 1 is provided with a vibration isolating mechanism (vibration insulating mechanism) having a vibration absorber such as a spring 51 and rubber 52, and the fan chamber frame 11 The vibration is effectively cut off with a configuration that does not transmit to the motor.

Next, the airtight member 6 that covers the gap between the fan motor base 12 and the fan chamber frame 11 (fan motor base receiving frame 111), which is a characteristic part of the present invention, will be described.
The hermetic member 6 mainly includes a bypass prevention plate 61 (a leak prevention packing sheet), a protective packing 62, and a contact plate 63.
The bypass prevention plate 61 is made of a flexible material that does not absorb and transmit vibrations such as a rubber plate, and is disposed so as to cover the outer peripheral clearance between the fan chamber frame 11 (fan motor base receiving frame 111) and the fan motor base 12. The upper end surface 611 of the bypass prevention plate 61 is attached to the lower side surface 122 of the fan motor base 12 with an adhesive 123, and the lower end surface 612 of the bypass prevention plate 61 is attached to the fan motor base receiving frame 111 provided on the fan chamber frame 11. The side upper surface 1112 is in non-adhesive contact. At this time, Air.A is sucked in by the fan unit 4 and the fan chamber 1 becomes negative pressure, so that the bypass prevention plate is also sucked into the fan chamber, and the joint surface of the frame 11 with the fan motor base receiving frame 111 is not It is completely airtight even when bonded.

In the first embodiment, the vertical position of the lower side surface 122 of the fan motor base 12 is inside the vertical position of the upper side surface 1112 of the fan motor base receiving frame 111 of the fan chamber frame 11, as shown in FIG. The entire shape of the bypass prevention plate 61 that covers the lower side surface 122 and the upper side surface 1112 has a skirt shape.
Since the bypass prevention plate 61 is made of a flexible material such as rubber, vibration transmission can be cut off. However, during operation, the fan chamber 1 always has a negative pressure, and the bypass prevention plate 61 sucks toward the inside of the fan chamber 1. Therefore, the bypass prevention plate 61 alone is deformed so as to be curved inward, so that a contact plate 63 made of a hard material such as metal (zinc steel plate) is provided inside the intermediate surface 613 of the bypass prevention plate 61 to bypass. The deformation of the prevention plate 61 is prevented. Further, the height of the inclined surface 631 of the contact plate 63 is set to have a sufficient interval x so that the tip does not hit the fan motor base 12, for example, the base bottom surface 121, and no noise is generated even if there is a large vibration. The joint surface between the fan motor base receiving frame 111 of the frame 11 and the bypass prevention plate 61 is configured to block vibrations in combination with the non-adhered state.
The base plate 63 made of a hard material such as a metal plate has bolts 632 and the like on the upper surface 1111 of the fan motor base receiving frame 111 so that the slope 631 comes into surface contact with the intermediate surface 613 of the bypass prevention plate 61 so as to match the skirt shape. The clip 634 is fixed by a fixing means or the like shown in Example 2 described later.
The fan chamber 1 becomes negative during operation, and the negative pressure causes the bypass prevention plate 61 to be in close contact with the upper side surface 1112 of the fan motor base receiving frame 111. If the negative pressure is not so great and the bypass prevention plate 61 alone is not deformed, the abutting plate 63 and the protective packing are not necessary.

Further, between the inner side of the bypass prevention plate 61 and the contact plate 63, a protective packing 62 made of a flexible material that is slightly harder than the bypass prevention plate 61 but is deformable is attached to the inclined surface 631 of the contact plate 63 with an adhesive 621. It is fixed and interposed.
The protective packing 62 has an interval x so that the height of the inclined surface 631 of the contact plate 63 is lowered and the tip does not contact the base bottom surface 121 of the fan motor base 12. It is reinforced so as to prevent the bypass prevention plate 61 from being deformed by a large negative pressure, and wear of the bypass prevention plate 61 and the contact plate 63 is also prevented. As shown in FIG. 3, the height of the protective packing 62 itself is slightly lower than the upper end of the protective packing 62 so as not to hit the base bottom surface 121.
The protective packing 62 may be omitted if there is almost no deformation of the bypass prevention plate 61 and the wear is not severe. Even in this case, naturally, the joint surface between the bypass prevention plate 61 and the fan motor base 12 is used. Are bonded and fixed, and the joint surface between the bypass prevention plate 61 and the upper side surface of the fan motor base receiving frame 111 of the fan chamber frame 11 is brought into a non-adhered state only by contact pressure, and the vibration must be cut off.
Although the ceiling 112 of the air damper chamber 81 of the air supply chamber 8 is also the fan chamber frame 11, even if the bottom surface of the air damper chamber 81 is the vibrating fan motor base 12, the vibration isolating member 5 is interposed therebetween. Therefore, vibration is not transmitted to the ceiling portion, and the ceiling portion 112 is fixed to the installation floor. Therefore, vibration to the air supply duct 82 of the air supply chamber 8 is also blocked.
The fan chamber 1 becomes negative during operation, and the negative pressure causes the bypass prevention plate 61 to be in close contact with the upper side surface 1112 of the fan motor base receiving frame 111. If the negative pressure is not so great and the bypass prevention plate 61 alone is not deformed, the contact plate 63 and the protective packing 62 are not necessary.

Since the first embodiment of the present invention is configured as described above, the operation and effect thereof are attached to the fan motor base 12 at the upper part of the fan chamber frame 11 so that the drive motor 32 and the fan unit 4 are suspended. Therefore, the conventional fan mount becomes unnecessary, and the height of the fan chamber can be further reduced. In this embodiment, the height can be shortened by about 20 to 30 cm. In addition, since the bypass prevention plate 61 is provided as the airtight member 6 in the outer peripheral gap B between the fan chamber frame 11 and the fan motor base 12, a conventional airtight maintenance canvas is not required, and the installation work of the air conditioner is simplified. I was able to.
Further, since the bypass prevention plate 61 is made of a flexible material such as rubber, the transmission of vibration can be cut off, and since the contact plate 63 made of a hard material such as metal is provided inside the bypass prevention plate, the bypass by the negative pressure of the fan chamber 1 is provided. The deformation of the prevention plate 61 can be prevented.
Further, the joint surface of the bypass prevention plate 61 and the fan motor base 12 is bonded, the joint surface of the frame 11 and the fan motor base receiving frame 111 is not bonded, and the height of the vertical surface 633 of the contact plate 63 is set. Even if there is a large vibration, a sufficient distance x is set so that the tip does not hit the base bottom surface 121 of the fan motor base 12 or the like to generate noise or the like, and the joint surface with the fan motor base receiving frame 111 In combination with the non-bonding state, the vibration is blocked.
As a further advantage, the installation becomes extremely easy. In addition, the fan chamber 1 becomes negative pressure during operation, so that the bypass prevention plate 61 is sucked into the fan chamber 1 and the joint surface with the frame body 11 is completely adhered even in a non-adhered state. Can be airtight.

Further, since the protective packing 62 is interposed between the bypass prevention plate 61 and the backing plate 63, the reinforcing packing 62 can maintain the spacing x even if the spacing between the backing plate 63 and the base bottom surface 121 is increased. The deformation of the bypass prevention plate 61 due to the negative pressure can be prevented, and the wear of the bypass prevention plate 61 and the contact plate 63 is also prevented.
In the first embodiment, since the vertical position of the fan motor base 12 and the joint surface of the bypass prevention plate 61 is arranged on the inner side of the vertical position of the joint surface of the frame 11 with the fan motor base receiving frame 111, the bypass prevention is always performed. The lower end of the plate 61 is in close contact with the joint surface between the fan motor board receiving frame 111 and the bypass prevention plate 61 due to the weight of the bypass prevention plate 61 even when the fan motor 1 and the air supply chamber 8 are completely airtight. It will be in the state made.

Another embodiment 2 of the present invention is different from the first embodiment only in the configuration of the airtight member 6 as shown in FIG.
In the second embodiment, the vibration of the drive motor 32 and the fan unit 4 and the case where the vibration is not so great, the vertical position of the fan motor base 12 and the joint surface of the bypass prevention plate 61, the frame 11 (fan motor base receiving frame 111). ) And the vertical position of the joint surface are the same. Similarly to the first embodiment, the height of the vertical surface 633 of the abutting plate 63 is set at a sufficient interval so that even if there is a large vibration, the tip hits the base bottom surface 121 of the fan motor base 12 and no noise is generated. x, and the joint surface of the frame 11 with the fan motor base receiving frame 111 is configured to block vibrations in combination with the non-adhered state.

  In the second embodiment, since the fan motor base 12 and the bypass prevention plate 61 are at the same position, it is only necessary to wind a flat bypass prevention plate 61 on the outer periphery, and the attachment is extremely simple, and the bypass plate 63 is prevented from being bypassed. Since the contact surface of the intermediate surface 613 of the plate 61 may also be a vertical surface 633 perpendicular to the upper surface 1111 of the fan motor base receiving frame 111, production is easy. The attachment of the backing plate 63 is also secured by the clip 634, thereby simplifying the attachment work.

However, the lower end of the bypass prevention plate 61 is long enough to bend and contact the upper surface of the fan chamber frame 11 so that airtightness is maintained even with some vibration. The upper end surface 611 of the bypass prevention plate 61 is attached to the lower portion 122 of the side surface of the fan motor base 12 with an adhesive 123, and the lower end surface 612 of the bypass prevention plate 61 is the fan motor base receiving frame 111 provided on the fan chamber frame 11. This is the same as the first embodiment in that the side surface upper portion 1112 is brought into contact with the side surface upper portion 1112 in a non-adhered state.
In addition, the operation and effect are the same as in Example 1 except that the joining force at the fan motor base receiving frame 111 due to the weight of the bypass prevention plate 61 is somewhat weak, and the other functions and effects are the same. Also easy to manufacture and set.
Of course, the present invention is not limited to the above-described embodiments as long as the features of the present invention are not impaired.

a ... fan room, b ... coil air conditioning room, c ... motor unit,
d ・ ・ Fan unit, e ・ ・ Air supply chamber, f ・ ・ Fan stand, g ・ ・ Damping member,
h ... anti-vibration stand, i ... canvas,
A ... Air conditioner, B ... Gap, x ... Interval,
1 ··· Fan room, 11 ··· Fan chamber frame, 111 · · Fan motor base support frame,
1111 ·· Upper surface, 1112 ··· Upper side surface, 112 · · Ceiling portion,
12 .... Fan motor base, 121 ... Base bottom,
122 .. Lower side, 123 .. Adhesive,
13 .... Air supply opening,
3 .... Motor unit, 31 ... Drive shaft, 32 ... Drive motor,
4. Fan unit,
5. ・ Vibration isolation member, 51 ・ ・ Spring, 52 ・ ・ Rubber,
6. Air-tight member,
61 .. Bypass prevention plate, 611 .. Upper end surface, 612 .. Lower end surface,
613..Intermediate surface,
62 ... Protective packing, 621 ... Adhesive,
63 ··· Plate, 631 · · Slope, 632 · · Bolt, 633 · · Vertical surface,
634 .. clip,
7. Coil air conditioning room,
8 .... Air supply chamber, 81 ... Air damper room, 82 ... Air supply duct

Claims (5)

A structure of a fan room of an air conditioner,
A fan motor base is provided on the upper part of the frame of the fan chamber via a vibration isolating member,
A fan drive motor and a fan unit are attached to the fan motor base so as to be suspended,
An airtight member is provided in the gap between the frame body and the fan motor base,
A structure of a fan chamber of an air conditioner, wherein a bypass prevention plate made of a flexible material is provided as the airtight member so as to cover the gap.   2. The air according to claim 1, wherein a joint surface between the bypass prevention plate and the fan motor base is bonded and fixed, and a joint surface between the bypass prevention plate and the frame body is brought into a non-bonded state only by contact pressure. The structure of the fan room of the harmony device.   Inside the bypass prevention plate, a contact plate made of a hard material is contacted in a non-adhered state, and the corresponding plate prevents the bypass prevention plate from being deformed and does not contact the fan motor base. The fan chamber structure of the air conditioner according to claim 1 or 2, wherein the fan chamber structure is fixed to a body.   The structure of the fan chamber of the air conditioner according to claim 3, wherein a protective packing is interposed between the inside of the bypass prevention plate and the contact plate.   The position of the fan motor base and the joint surface of the bypass prevention plate is arranged inside the position of the joint surface with the frame, and the bypass prevention plate is provided in a skirt shape that extends downward on the outer periphery of the fan motor base. The structure of the fan chamber of the air conditioner selected from the claims 1 to 4.

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