JP2008096020A - Outdoor machine of air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve COP and periodic power consumption of a separate-type air conditioner by reducing input of a fan motor of an outdoor machine by improving static pressure efficiency. <P>SOLUTION: The outdoor machine 1 is provided with a vertical compressor 3, a heat exchanger 2, and two propeller fans 5, 6 respectively composed of one blade rotated in the direction opposite to each other. Balancers 30, 31 for taking dynamic balance with each of blades 20, 25 are disposed inside of hubs 24, 29. A fan motor 7 is disposed to rotate the windward propeller fan 5 of two propeller fans, a reversing mechanism 8 is disposed to rotate the leeward propeller fan 6 by reversing the rotating direction of the fan motor 7, and two propeller fans 5, 6 are constituted to have the same airflow direction though they are rotated in the directions opposite to each other. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a heat exchange promoting blower used for an outdoor unit of an air conditioner, and more particularly to a technique for improving fan efficiency (static pressure efficiency) of the blower.

  This type of air conditioner forms a refrigeration cycle by connecting an indoor unit having a heat exchanger and a blower and an outdoor unit having a compressor, a heat exchanger, and a blower, and filling the refrigeration cycle. Indoor air conditioning is performed by performing cooling operation or heating operation by heat transfer of the refrigerant. In the outdoor unit, the blower is configured to include a fan and a fan motor to promote heat exchange of the heat exchanger, but the air volume of the blower greatly affects the performance of the air conditioner and includes noise. There is a big impact on performance. In particular, in heating operation, moisture in the air is condensed and attached as dew to the heat exchanger of the outdoor unit, which hinders the airflow passing through the heat exchanger. When it gets colder, the dew becomes clogged with ice and frost, and even in such a situation, the fan efficiency of the blower can be reduced in order to suppress the reduction of air volume and reduce noise. Improvement is important.

  A blower for promoting heat exchange used for an outdoor unit of an air conditioner and a technique related to a rear stationary blade are disclosed for the purpose of collecting the dynamic pressure to increase fan efficiency (for example, Patent Document 1). reference).

FIG. 4 is a cross-sectional view of an outdoor unit 80 of a conventional air conditioner. 83 is a compressor space, 84 is a main body outer box, 81 is a heat exchanger, 82 is a fan motor, and 87 is an orifice, and a fan 85 for promoting heat exchange and a rear stationary vane 86 for recovering its dynamic pressure are used as fans. The motor 82 is arranged on the same axial center from the windward side.
JP 2002-81695 A

However, in the above-described conventional configuration, even if the circumferential component V _θ of the absolute speed C ₂ of the blower 85 is recovered by the rear stationary blade 86, V _θ cannot be recovered by the recovery by the stationary blade 86, and the dynamic pressure is static. There was a limit to the conversion to pressure. That is, the dynamic pressure Pd = 0.5 * ρ * V _θ ² (ρ: density is in units of Kg · sec ² · m ⁴ and units of C ₂ and V _θ are m / sec). Incidentally, when the rear stationary vane 86 was attached to the blower 85 having two blades of 415 mm, the operating point static pressure efficiency was improved by about 7%.

  The present invention solves the above-mentioned conventional problems, and improves the fan efficiency (static pressure efficiency) of the blower to greatly increase the static pressure and the air volume, or suppresses the decrease in the air volume even with respect to the air blowing resistance, It aims at providing the outdoor unit of the air conditioner which can reduce a noise.

  In order to solve the above-described problems, an outdoor unit of an air conditioner according to the present invention includes two compressor blades, a heat exchanger, and a fan for promoting heat exchange of the heat exchanger. A balancer that is equipped with a propeller fan and balances with one blade each is mounted inside each hub, and the two propeller fans are provided close to each other on the same axis and rotate in opposite directions while the air flow direction is It is comprised so that it may become the same.

As a result, of the two propeller fans, the rotational energy of the wake behind the propeller fan that is on the windward side (waste energy associated with rotation) becomes the leeward side that rotates counterclockwise (rotates in the opposite direction) close to each other. It can be recovered with a propeller fan and the rotational flow behind the leeward propeller fan can be made almost zero. That is, the operating point fan efficiency is greatly improved as compared with the case where only one propeller fan having a large size (the depth is equivalent to two propeller fans of the present invention) is used for the outdoor unit of the air conditioner. The static pressure and air volume can be greatly increased. Furthermore, since the number of blades on each of the wind up and down propeller fans is one, the blade area is minimized and the aerodynamic work can be sufficiently performed by the rotating action of the wind up and down propeller fans, so that the fluid friction is the least. As a result, the fan efficiency (static pressure efficiency) at the operating point can be further improved. As a result, the fan motor input can be greatly reduced, and the COP and period power consumption of the air conditioner can be reduced.

  The outdoor unit of the air conditioner of the present invention collects the rotational energy (waste energy associated with the rotational flow) of the leeward propeller fan downstream by the counter-rotating leeward propeller fan, Since the rotational flow can be made almost zero, the static pressure and air volume can be greatly increased compared to the case of using only one large propeller fan in the outdoor unit of the air conditioner, and the operating point Fan efficiency can be greatly improved. Furthermore, since the number of blades on each of the up-and-down propeller fans is one, the aerodynamic work can be performed with the least amount of blade area input, resulting in less fluid friction, resulting in a fan efficiency at the operating point ( (Static pressure efficiency) can be further improved. As a result, the fan motor input can be greatly reduced, and the COP and period power consumption of the air conditioner can be reduced.

  The first invention includes a compressor, a heat exchanger, and two propeller fans each having one blade as a heat exchange promoting fan for the heat exchanger, each of which has a dynamic balance with one blade. The two propeller fans are provided close to each other on the same axis so that the airflow directions are the same while rotating in opposite directions.

  As a result, of the two propeller fans, the rotational energy of the wake behind the propeller fan that is on the windward side (waste energy associated with rotation) becomes the leeward side that rotates counterclockwise (rotates in the opposite direction) close to each other. It can be recovered with a propeller fan and the rotational flow behind the leeward propeller fan can be made almost zero. That is, the operating point fan efficiency is greatly improved as compared with the case where only one propeller fan having a large size (the depth is equivalent to two propeller fans of the present invention) is used for the outdoor unit of the air conditioner. The static pressure and air volume can be greatly increased. Furthermore, since the number of blades on each of the wind up and down propeller fans is one, the blade area is minimized and the aerodynamic work can be sufficiently performed by the rotating action of the wind up and down propeller fans, so that the fluid friction is the least. As a result, the fan efficiency (static pressure efficiency) at the operating point can be further improved. As a result, the fan motor input can be greatly reduced, and the COP and period power consumption of the air conditioner can be reduced.

  The second invention comprises one fan motor and a reversing mechanism for reversing the direction of rotation of the fan motor and transmitting one of the two propeller fans having one blade. It is configured such that it is driven by a fan motor and the other propeller fan is driven by a reversing mechanism. Thus, it is possible to drive two propeller fans to rotate in opposite directions with one fan motor, and since there is one heavy fan motor, the components of the outdoor unit of the air conditioner are There are few, and it can produce at low cost and lightweight.

According to a third aspect of the invention, the two propeller fans each have a chord-shaped wing shape opposite to each other, are formed in substantially line symmetry when viewed from the same axial direction, and rotate in opposite directions to each other in the direction of air flow. Are configured to be the same. With this configuration, the rotational energy (waste energy associated with the rotation) of the propeller fan that is on the windward side of the two propeller fans, and the leeward side that counter-rotates (rotates in the opposite direction) close to each other. It can be recovered with a propeller fan and the rotational flow behind the leeward propeller fan can be made almost zero. That is, the operating point fan efficiency is greatly improved as compared with the case where only one propeller fan having a large size (the depth is equivalent to two propeller fans of the present invention) is used for the outdoor unit of the air conditioner. The static pressure and air volume can be greatly increased. Furthermore, since the number of blades on each of the wind up and down propeller fans is one, the blade area is minimized and the aerodynamic work can be sufficiently performed by the rotating action of the wind up and down propeller fans, so that the fluid friction is the least. As a result, the fan efficiency (static pressure efficiency) at the operating point can be further improved. As a result, the fan motor input can be greatly reduced, and the COP and period power consumption of the air conditioner can be reduced. Although there is only one fan motor, the rotation direction of the fan motor shaft is opposite to that of the leeward propeller fan due to the combination of the gear shape incorporated in the gear box on the same axis of the wakeward propeller fan wake. Since there is only one fan motor, the number of components of the outdoor unit for air-conditioned air can be reduced and it can be produced at low cost.

  In a fourth aspect of the invention, the reversing mechanism is housed in the hub of the windward propeller fan, in the hub of the leeward propeller fan, or in the hubs of both the windward and leeward propeller fans. It is not necessary to provide a reversing mechanism between the propeller fans, and the windward and leeward propeller fans can be configured close to each other, so that the outdoor unit can be saved in space.

  Embodiments of the present invention will be described below with reference to the drawings.

(Embodiment 1)
FIG. 1 is a cross-sectional view of an outdoor unit for air-conditioning air according to a first embodiment of the present invention. FIG. 2 is a plan view of the windward propeller fan when the outdoor unit is viewed from the A direction. FIG. 3 is a plan view of the leeward propeller fan when the outdoor unit is viewed from the A direction.

  In FIG. 1, 1 is an outdoor unit, 2 is a heat exchanger, 3 is a vertical compressor, 4 is a soundproof plate, 5 is a windward propeller fan, 6 is a leeward propeller fan, 7 is a fan motor, and 8 is a fan motor. A gear box (reversing mechanism) that houses a gear having a mechanism for reversing the direction of rotation of the fan motor 7 and transmitting it, 9 is an orifice, 10 is a front grille, and 11 is a fan motor base. The windward side propeller fan 5 and the leeward side propeller fan 6 generate a blowing action in the heat exchanger 2 and act as a blower for promoting heat exchange (double reversing fan).

  In FIG. 2, the blade 20 of the windward propeller fan 5 has one blade, 21 is a tip constituting the outer peripheral edge, 22 is a front edge, 23 is a rear edge, and 24 is a hub. Furthermore, 30 is a balancer that balances the dynamics with the blades 20. In FIG. 3, the blade 25 of the leeward propeller fan 6 has one blade, 26 is a tip, 27 is a leading edge, 28 is a trailing edge, 29 is a hub, and 31 is a dynamic balance with the blade 25. Take balancer.

  Basically, the air flows in from the front edges 22 and 27 and out from the rear edges 23 and 28, respectively. The leading edges 22 and 27 are advanced in the rotational direction. The leading edges 22 and 27 are formed by a spiral curve, but the leading edges 22 and 27 are straight, and triangular wings (triangular wings) are linearly attached to the leading edge and attached to the outer peripheral side. In addition, the radii of the blades 20 and 25 may be configured to be substantially the same.

In other words, the vertical compressor 3, the heat exchanger 2, and two propeller fans 5 and 6 each having one blade as a heat exchange promoting fan for the heat exchanger 2 are provided, each of which has a single blade and a motion. The balancers 30 and 31 to be balanced are mounted inside the hubs 24 and 29, and the two propeller fans 5 and 6 are provided close to each other on the same axis so that the airflow directions are the same while rotating in opposite directions. It is configured. Here, either one of the up-and-down propeller fans 5 and 6 is configured to have an airfoil shape having a thickness, and the thickness of the airfoil shape having a thickness in which the leading edge is rounded and the trailing edge is pointed. You may comprise with a wing | blade.

  With the above configuration, the rotational energy (waste energy associated with the rotation) in the wake of the propeller fan 5 that is on the windward side of the two propeller fans 5 and 6 is counter-rotated (rotated in directions opposite to each other). The propeller fan 6 on the leeward side is recovered, and the rotational flow behind the leeward propeller fan 6 can be made substantially zero. That is, the operating point fan efficiency is greatly improved as compared with the case where only one propeller fan having a large size (the depth is equivalent to two propeller fans of the present invention) is used for the outdoor unit 1 of the air conditioner. The static pressure and air volume can be greatly increased.

  Further, since the number of blades of each of the wind up / down propeller fans 5 and 6 is one, the blade area is minimized and the aerodynamic work can be sufficiently performed by the rotating action of the wind up / down propeller fans 5 and 6. As a result, the fan efficiency (static pressure efficiency) at the operating point can be further improved. As a result, the input of the fan motor 7 can be greatly reduced, and the COP and period power consumption of the air conditioner can be reduced. When either one of the wind up / down propeller fans 5 and 6 is configured with thick blades, the blowing noise of the outdoor unit 1 can be further reduced.

(Embodiment 2)
FIG. 1 can be used as a cross-sectional view of an outdoor unit of an air conditioner according to a second embodiment of the present invention. In FIG. 1, one fan motor 7 and a reversing mechanism 8 for reversing and transmitting the rotation direction of the fan motor 7 are provided. Of the two propeller fans 5 and 6 having one blade, The upper propeller fan 5 is driven by a fan motor 7 and the leeward propeller fan 6 is driven by a reversing mechanism 8.

  As a result, it is possible to drive the two propeller fans 5 and 6 to rotate in opposite directions with one fan motor 7, and since there is one heavy fan motor 7, the air conditioner There are few components of the outdoor unit 1, and it can be produced at low cost and light weight.

(Embodiment 3)
This will be described with reference to FIGS. In FIG. 1, the outdoor unit 1 includes a vertical compressor 3, a heat exchanger 2, and two propeller fans 5 each having one blade as a counter-rotating (rotating in the opposite direction) fan for promoting heat exchange. A fan motor 7 for rotating the windward propeller fan 5 out of the two propeller fans by installing a balancer 30, 31 that is provided with a blade 6, 25 and is in balance with each of the hubs 24, 29. And a reversing mechanism 8 for reversing and transmitting the rotation direction of the fan motor 7, and a leeward propeller fan 6 that rotates counterclockwise by the reversing mechanism 8 on the downstream side of the windward propeller fan 5. The propeller fan 5 and the leeward propeller fan 6 have the wings 20 and 25 each having a chord-shaped bending direction opposite to each other, are formed substantially symmetrical with respect to the same axis, and rotate in opposite directions. The direction of flow is made to configure such that the same. Here, the airfoil is formed of a thick wing-shaped blade having a thickness in either one of the up-and-down propeller fans 5 and 6, and has a thickness with a leading edge having a rounded shape and a sharp trailing edge. A thick wing having a shape may be used.

With the above configuration, the leeward side where the rotational energy (wasteful energy associated with the rotation) of the propeller fan 5 on the windward side of the two propeller fans approaches and counter-rotates (rotates in the opposite direction). It collects with the propeller fan 6 which becomes, and further leeward propeller fan 6
The rotational flow of the wake can be made almost zero. That is, the operating point fan efficiency is greatly improved as compared with the case where only one propeller fan having a large size (the depth is equivalent to two propeller fans of the present invention) is used for the outdoor unit 1 of the air conditioner. The static pressure and air volume can be greatly increased.

  Further, since the number of blades of each of the wind up / down propeller fans 5 and 6 is one, the blade area is minimized and the aerodynamic work can be sufficiently performed by the rotating action of the wind up / down propeller fans 5 and 6. As a result, the fan friction (static pressure efficiency) at the operating point can be further improved. As a result, the input of the fan motor 7 can be greatly reduced, and the COP and period power consumption of the air conditioner can be reduced. Although the number of the fan motor 7 is one, the direction of rotation of the shaft of the fan motor 7 is changed to the leeward propeller fan by a combination of a gear shape incorporated in the gear box 8 on the same axial center of the wakeward propeller fan 5 6 can be transmitted as an anti-rotation direction, and since there is only one fan motor 7, the number of components of the outdoor unit 1 of the air-conditioned air can be reduced and the production can be performed at low cost. When either one of the wind up / down propeller fans 5 and 6 is configured with thick blades, the blowing noise of the outdoor unit 1 can be further reduced.

(Embodiment 4)
FIG. 1 is a cross-sectional view of an outdoor unit for air-conditioning air according to a first embodiment of the present invention, which will be described by diverting it.

  In FIG. 1, the reversing mechanism 8 is disposed inside the hub 24 of the leeward propeller fan 5, inside the hub 29 of the leeward propeller fan 6, or inside the hubs 24, 29 of both the leeward and leeward propeller fans 5, 6. Since it is housed and there is no need to dispose the reversing mechanism 8 between the two propeller fans, it is possible to configure the windward and leeward propeller fans 5 and 6 close to each other. 1 can save space.

  As described above, the outdoor unit of an air conditioner according to the present invention collects the rotational energy (waste energy associated with the rotational flow) of the windward propeller fan downstream by the counter-rotating leeward propeller fan, and further leeward. Since the rotational flow in the wake of the side propeller fan can be made almost zero, the static pressure and air volume can be greatly increased compared to the case where only one large propeller fan is used in the outdoor unit of the air conditioner. It is possible to greatly improve the operating point fan efficiency. Furthermore, since the number of blades on each of the up-and-down propeller fans is one, the aerodynamic work can be performed with the least amount of blade area input, resulting in less fluid friction, resulting in a fan efficiency at the operating point ( (Static pressure efficiency) can be further improved. As a result, the fan motor input can be greatly reduced, and the COP and period power consumption of the air conditioner can be reduced.

  This technology can be applied to various air conditioners such as room air conditioners and store packaged air conditioners. Further, the double reversing fan can be developed in consumer equipment that is an industrial product using the fan. That is, it can be developed as a ventilation fan, a fan, a computer cooling fan, or the like.

The cross-sectional view of the outdoor unit of the air conditioner in the embodiment of the present invention The A direction top view of the windward propeller fan of the outdoor unit of the air conditioner in embodiment of this invention The A direction top view of the lee side propeller fan of the outdoor unit of the air conditioner in embodiment of this invention Cross-sectional view of an outdoor unit of an air conditioner of a conventional example

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Outdoor unit 2 Heat exchanger 3 Vertical compressor 4 Soundproof plate 5 Upward propeller fan 6 Downward propeller fan 7 Fan motor 8 Inversion mechanism 9 Orifice 10 Front grill 11 Fan motor stand 20, 25 Blade 21, 26 Tip 22, 27 Leading edge 23, 28 Trailing edge 24, 29 Hub 30, 31 Balancer

Claims (4)

A compressor, a heat exchanger, and two propeller fans each having one blade as a heat exchange promoting fan for the heat exchanger, each having a balancer that is in dynamic balance with one blade each The outdoor unit of the air conditioner is characterized in that the two propeller fans are provided close to each other on the same axis and are configured to rotate in opposite directions while having the same airflow direction. . One fan motor and a reversing mechanism for reversing and transmitting the rotation direction of the fan motor are provided, and one of the two propeller fans having one blade is driven by the fan motor. The outdoor unit for an air conditioner according to claim 1, wherein the other propeller fan is driven by the reversing mechanism. Each of the two propeller fans has a chord-shaped wing shape that is reversed in the direction of curvature, is formed substantially symmetrical with respect to the same axis, and rotates in opposite directions so that the airflow directions are the same. The outdoor unit for an air conditioner according to claim 1 or 2, wherein the outdoor unit is configured. 4. The air according to claim 2, wherein the reversing mechanism is housed inside the hub of the windward propeller fan, inside the hub of the leeward propeller fan, or inside the hub of both the windward and leeward propeller fans. Harmonic outdoor unit.