JPH03213923A - Integrated air conditioner condensate treatment device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] Industrial Field of Application The present invention relates to a condensate water treatment device for an integrated air conditioner equipped with a propeller fan with a slinger ring on the outside of the room. Processing device CL As shown in FIG. 6, the shape of the orifice 21 provided in the air guider 20 is a perfect circle, and the diameter of the orifice 21 is larger than the outer diameter of the propeller fan 22. Also, conventionally, the shaft center of the probe fan 22 was made smaller than the outer diameter of the ring 23.
The center of the orifice 21 provided in the air guider 20 is the same as that of the air guider 20.
A flange 24 having the same diameter as the orifice 21 and extending a predetermined dimension is provided on the downstream side of the orifice 21 of the air guider 20 , and the tip thereof is on the upstream side of the air guider 20 .
A water splash prevention plate 25 is attached by welding or the like so as to be inscribed in the flange 24 of the orifice 21.
The water splash prevention plate 25 is provided.
A waterproof flange 26 is provided by welding or the like, with the upstream end of the air blown air bent a predetermined dimension inward from the outer periphery of the orifice 21 at the lower part of the orifice 21. The orifice 21 provided in the air guider 20 is a perfect circle and its inner diameter is the propeller fan 2.
The slinger ring 23 of the propeller fan 22 is smaller than the slinger ring 23 of the propeller fan 22 and is located between the air guider 20 and the outdoor heat exchanger 28 provided to communicate with the air guider 20. When installing and removing the propeller fan 22, the outdoor heat exchanger 28 must also be removed, requiring a large amount of man-hours for assembly and servicing, as well as requiring a large number of parts, resulting in poor assembly accuracy and high costs. Furthermore, the axial center of the propeller fan 22 and the center of the orifice 21 provided in the air guider 20 are aligned. It is necessary to insert the air guider 20 from the outdoor heat exchanger 28 side, and therefore it is necessary to provide the air guider 20 at a position where the height of the rear flange 34 of the board 29 does not get in the way, and the depth dimension of the air conditioner 35 is increased more than necessary. It is also necessary to increase the size of the water splash prevention plate 25 that prevents the splashing of condensed water scooped up by the slinger ring 23 that is integrally provided with the propeller fan 22 that is inscribed in the orifice 21 of the air guider 20. Therefore, the resistance on the upstream side of the air blowing increases, which causes a decrease in air volume and has a negative effect on the ventilation. The pressure force between the air guider 20 and the outdoor heat exchanger 28, that is, the downstream side of the air blower, is higher than the upstream side of the air blower, so condensed water flows into the air guider 20. Orifice 2
The water is blown out from the lower part of the air guide and the propeller fan 22 scrapes up the water, so the waterproof flange 26 has little water splash prevention effect.The present invention has been made in view of the above-mentioned conventional problems. The aim is to allow assembly to be performed from the upstream side of the air blower, significantly reducing man-hours during assembly and service, and at the same time improving assembly accuracy by reducing the number of parts.
This invention aims to minimize the depth dimension of an air conditioner by making it possible to set a propeller fan in an orifice from diagonally above. The purpose of this invention is to prevent the scattering of condensed water scraped up by the slinger ring provided on the propeller fan without having to attach any other parts to the air guider. The purpose of this invention is to prevent condensed water from blowing out from the bottom of the bell mouth of the bell mouth.
The shape of the orifice provided in the air guider is
It is also possible to make the axis of the propeller fan larger than the radius R of the slinger ring of the propeller fan and make it an ellipse in the vertical direction. In addition, a flange is provided around the orifice of the air guider that extends a predetermined distance downstream of the air blower. The present invention also works on a lower part of a flange provided around an orifice of an air guider, in which the tip of the flange is bent a predetermined distance inward from the outer periphery of the orifice. The functions of the present invention are as follows.
The shape of the orifice provided in the air guider is
By making R larger than the radius R of the propeller fan's slinger ring and making it an ellipse in the vertical direction, the propeller fan can be set in the orifice provided in the air guider.
It can also be done from the upstream side of the air blower.
The setting force to the orifice of the propeller fan (which can be done from diagonally above) is also provided in the present invention.A flange is provided around the orifice of the air guide and extends a predetermined distance downstream of the blowing air, and furthermore, the tip of the flange is set so as to be lower than the outer periphery of the orifice. By opening outside the specified dimensions, it is possible to prevent condensed water from scattering without attaching any separate parts to the air guider. By bending the orifice inward by a predetermined distance from the outer periphery of the orifice, it is possible to prevent condensed water from blowing out from the bottom of the orifice without attaching any separate parts to the air guider. A first embodiment of the present invention will be explained with reference to FIGS. 1 to 4. In the figures, 1 is the main body of an integrated air conditioner, which has a well-known refrigeration cycle inside. An indoor grill 2 is provided in front of the grill 2, and the air is sucked in from the indoor suction port 3, cooled by the indoor fan 18 in the indoor heat exchanger 19, and blown out from the indoor air outlet 4. The condensed water condensed in the indoor heat exchanger 19 is collected in the frame 5 which also serves as an outer box.
6A and 6B are provided respectively, and wind power is sent by the air guider 8 which is provided to communicate with the propeller fan 9 and the outdoor heat exchanger 11 (heat is exchanged by the outdoor heat exchanger 11, and heat is radiated from the outdoor blowing lower). Moreover, the condensed water collected in the outer box/underframe 5 is scraped up by the slinger ring 10 provided on the propeller fan 9 and evaporated by sprinkling water on the outdoor heat exchanger 11. The outer box/underframe 5 is formed into a box shape with an opening for the indoor/outdoor partition, and a bulkhead 12 is provided in the indoor/outdoor partition. Even if the propeller fan 9 is attached to the shaft of the fan motor 13, the underframe 5 also serves as an outer box.
In the above configuration, the fan motor 1 is inserted into the bulkhead 12 even if the heat exchanger 11 outside the storage room and the air guider 8 are inserted in this order through the opening on the indoor side, and then the air guider 8 is tightened together with the same screw.
In order to fix the bulkhead 12 to the outer box/underframe 5, the propeller fan 9 attached through the air guider 8 is set from the indoor side opening.
The shape of the orifice 14 is an ellipse whose upper and lower R is larger than the radius R of the slinger ring 10 of the propeller fan 9 and is longer in the vertical direction. Since the outer box and underframe are integrated, the number of parts is reduced, the cost is low, and the assembly accuracy is greatly improved.It is also possible to significantly reduce the number of man-hours for assembly and service.Next Figure 3 shows that the present invention the second of
Here, the same components as those in the first embodiment will be given the same reference numerals and their explanations will be omitted. 12 has a considerable mass. Clothes to be fixed to the outer box/underframe 5. Place the bulkhead 12 on the outer box/underframe 5. Using the lower end surface of the bulkhead 12 as a fulcrum, propeller fan 9 is mounted. The upper part of the orifice 14 and the slinger ring 1O hit each other, making it difficult to insert the propeller fan 9. Go to 14 Orifice 1 of propeller fan 9 below the center in the major axis direction
4 from the indoor side (this is very easy and there is no need to worry about interference with related parts when installing the propeller fan 9).The depth dimension outside the classroom is also kept to the necessary minimum. , the third embodiment of the present invention will be explained with reference to FIGS. 3 to 5. In the same figures,
Reference numeral 15 is an oval flange having the same shape as the orifice 14, and extends a predetermined length downstream of the blowing air.
In the above structure, even if a drain section 16 is provided that opens outward by a predetermined dimension from the outer periphery of the orifice 14,
The condensed water scraped up by the slinger ring 10 (Table 1) may scatter on the top surface and left and right sides of the air guider 8, and may also flow through the air guider 8 and be blown out from the orifice 14. The drain part 16 guides the scattered condensed water to the lower part and prevents it from jumping out from the main body l.A fourth embodiment of the present invention will be explained with reference to Fig. 4 @ Fig. 5.
In the same figure, reference numeral 17 denotes a blown-out water prevention part, which extends to a part of the lower part of the flange 15 provided around the orifice 14.
The tip of the flange 15 is bent a predetermined distance inward from the outer circumference of the orifice 14, and the pressure inside the air guider 8 increases due to the air blowing from the propeller fan 9, and the condensed water force accumulated in the underframe 5 which also serves as an outer box. This prevents the water that blows out from the lower part of the lifting chair 14 to the upstream side of the air blower and is splashed by the propeller fan 9 from flying out from the main body 1. Effects of the Invention As is clear from the above embodiments, the present invention ( L The shape of the orifice provided in the air guider is made so that the upper and lower R is larger than the radius R of the slinger ring of the propeller fan, and by making it an ellipse in the vertical direction, it is possible to set the propeller fan in the orifice provided in the air guider. As a result, all parts are attached to the underframe that also serves as the outer box.Since the outer box and underframe are integrated, the number of parts is small, and the assembly accuracy is high at low cost. In addition, by placing the axis of the propeller fan below the center of the longitudinal axis of the vertically long oval orifice of the air guider, it is possible to significantly reduce the number of man-hours required for assembly and service. (The structure allows it to be set diagonally from above.As a result, the setting force from the inside of the propeller fan orifice is very easy.When assembling the propeller fan, there is no need to worry about interference with related parts. In addition, the depth dimension on the outside of the room can be kept to the minimum necessary, and a flange extending a predetermined distance downstream of the air guider is provided around the orifice of the air guider (furthermore, the tip of the flange is set at a predetermined distance from the outer circumference of the orifice). By opening outside the dimensions, it may be possible to attach other parts to the air guider, but the drain section provided in the orifice can guide the scattered condensed water to the bottom and prevent it from flying out from the main body.Provided around the air guider orifice. At the bottom of the flange,
By bending the tip of the flange a predetermined distance inward from the outer periphery of the orifice, attaching other parts to the air guider. Furthermore, Table 6: Water splashed by the propeller fan can be prevented from flying out of the main unit.

[Brief explanation of drawings]

Fig. 1 shows a strabismic view of an integrated air conditioner from the indoor side of an integrated air conditioner according to an embodiment of the present invention. Fig. 2 shows a strabismic view of the integrated air conditioner from the outside of the room. Fig. 3 shows an integrated air conditioner equipped with an embodiment of the present invention. 4 is a cross-sectional view of an air guider showing an embodiment of the present invention; FIG. 5 is a sectional view of essential parts of an air guider showing an embodiment of the present invention; FIG. 6 is a diagram showing a conventional example. In the cross-sectional view of the outdoor side of the air conditioner, it shows: 1...Main cooking 5...Underframe that also serves as an outer box 8...
Air guider, 9...propeller fan, IO...
・Slinger ring, 12... Bulkhead, 1
4... Orifice 15... Flange, 16...
・・Drainer 17・・Blowout water prevention part

Claims (4)

[Claims] (1) A heat exchanger within an air conditioner main body integrally formed with an outdoor board and an outer box, a propeller fan provided opposite to the heat exchanger, and a propeller fan that communicates with the heat exchanger and is provided with the propeller fan. An air guider is also provided to form a ventilation path.
The propeller fan is provided with a slinger ring, and the orifice shape of the air guider is a vertically long ellipse, and the upper and lower R are larger than 1/2 of the slinger ring diameter of the propeller fan. Water treatment equipment. (2) The condensed water treatment device for an integrated air conditioner according to claim 1, wherein the axis of the propeller fan is located below the center of the longitudinal direction of the vertically elongated oval orifice of the air guider. (3) An integrated air conditioner according to claim 1, wherein a flange is provided around the orifice of the air guider and extends by a predetermined dimension toward the downstream side of the air blower, and further the tip of the flange is opened beyond the outer periphery of the orifice by a predetermined dimension. Machine condensate treatment equipment. (4) The condensed water treatment device for an integrated air conditioner according to claim 1, wherein at a lower part of the flange provided around the orifice of the air guider, a tip of the flange is bent inward by a predetermined dimension from an outer periphery of the orifice.