JPS6322432Y2 - - Google Patents

Description

[Detailed Description of the Invention] <Technical Field> The present invention relates to an air conditioner such as a window air conditioner, and particularly relates to the configuration of a casing disposed within the main body.

<Prior art> Generally, in a window air conditioner, the indoor and outdoor heat exchangers are housed in the main body, so a casing with an S-shaped cross section is provided inside the main body, and an indoor passageway and an outdoor side passage are provided inside the main body. A heat exchanger and a cross flow fan are provided in both passages.

In addition, in such a window air conditioner, the indoor heat exchanger is small in the longitudinal direction, and the outdoor heat exchanger is larger in the longitudinal direction, so the indoor cross flow fan is shortened accordingly. Thus, the outdoor cross flow fan is longer. Therefore, the casing that partitions the indoor and outdoor passages is short in the part where the indoor flow fan is installed and long in the part where the outdoor cross flow fan is installed.

Therefore, conventional casings have been made by attaching a heat insulating sheet to a metal plate or integrally molded polystyrene foam, and these metal plates and polystyrene foam are press-formed or foamed into shapes that meet the above conditions. It was formed by molding.

However, while the above-mentioned casing made of a metal plate with a heat insulating sheet attached is strong and has excellent dimensional stability, it has various problems such as poor heat insulation, high price, and large weight.On the other hand, a casing made of integrally molded polystyrene foam Although there are no problems with heat insulation, price, or weight, there are problems with strength and dimensional stability, and both those using the metal plate and those using expanded polystyrene have advantages and disadvantages.

However, the recent trend is toward using foamed resin materials as casing materials, and it is expected that this casing will become mainstream in the future.

On the other hand, molded products using these foamed resin materials are made by injecting and filling beads of resin material into a mold with a space of the desired shape, and then foaming it by heating without applying pressure. In recent years, advances in materials and manufacturing technology have made extrusion molding possible, and the extrusion molding technology for foam molded products has been applied to molding technology for mass-produced casings. It is very effective to apply it.

<Purpose> The present invention has been developed in view of the above points, and aims to reduce weight and cost by using a molded foamed plastic product as the casing material.

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

FIG. 1 is a cross-sectional view of an embodiment of the present invention, and FIG. 2 is an exploded perspective view of the same. In FIG. 1 and FIG. and an outdoor passage 4; 5 is an indoor heat exchanger disposed in the indoor passage 3 facing the suction port 6; and 7 is an indoor heat exchanger with its axis facing the indoor passage 3 in the vertical direction. cross flow fan,
8 is an outdoor heat exchanger disposed in the outdoor passage 4 facing the suction port 9; 10 is a cross flow fan also disposed in the outdoor passage; (moving to Fig. 2)
Reference numeral 11 denotes a top plate on which a mounting portion a of a fan motor (not shown) that drives the outdoor cross-flow fan 10 and a shaft support b of the indoor cross-flow fan 7 are integrally molded, and 12 drives the indoor cross-flow fan. 13 is a lower plate that pivotally supports the lower part of the outdoor cross flow fan 10, 14 is a board, and 15 is a compressor attached to this board. It is.

The above-mentioned main body 1 is connected to the indoor and outdoor areas by using a mounting frame (not shown), for example, so that indoor air flows through the indoor passage 3 and outdoor air flows through the outdoor passage 4 as shown by the arrows in FIG. It is installed in the window for a period of time.

The casing 2 is made of an extruded foamed plastic material, and is divided into an indoor casing 2a and an outdoor casing 2b along a partition line A. The protrusions 16 are fitted into recesses 17 provided on the side end surfaces of the indoor casing 2a facing the protrusions 16, thereby joining the two.

This indoor casing 2a is
In correspondence with the indoor heat exchanger 5 and the cross flow fan 7, which are formed short in the vertical direction (in the figure), they are formed short in the longitudinal direction and have a substantially L-shaped cross section.

Moreover, the outdoor casing 2b is formed long in the longitudinal direction to correspond to the outdoor heat exchanger 8 and the cross flow fan 10, which are formed long in the longitudinal direction, and has a substantially L-shaped cross section.

To explain the production of the casing 2 consisting of the indoor and outdoor casings 2a and 2b, an extrusion mold having the cross-sectional shapes of the indoor and outdoor casings 2a and 2b, respectively, is produced, and a foamed plastic material is used to continuously mold both of the casings. A long product having a cross-sectional shape is manufactured, each is cut to a predetermined length or formed by press punching, and finally post-processing is performed to combine the indoor and outdoor casings 2a and 2b.

Therefore, since the casing is divided into the indoor and external casings 2a and 2b having different longitudinal directions, the material can be saved more easily even if the casing is manufactured by extrusion molding than when the casing is not divided.

Although the embodiment of the present invention has been explained above using a window air conditioner as an example, it can also be applied to other air conditioners by constructing the casing with an extrusion molded product of foamed plastic material. The casing can be made by simply creating a casing raw material with a shaped cross section and cutting it to the appropriate length.Compared to the conventional casting and foaming method, manufacturing is extremely simple and suitable for mass production. It is very effective.

In addition, in the above embodiment, an example was explained in which the casing was divided into indoor and outdoor casings, but the division is as follows.
For casings whose cross-sectional shape changes depending on the location, it is best to make them into shapes that suit the casing shapes of various air conditioners, taking into account the material requirements.In particular, if the casing does not change in cross-sectional shape from end to end, it can be divided. It is very effective for manufacturing if it is formed integrally by extrusion molding.

In addition, in terms of applications, it is meaningful in terms of production to construct not only casings but also relatively long parts that have the same cross-sectional shape and need to have heat insulation properties from extruded foamed plastic products. .

<Effects> According to the present invention, the main body is provided with a casing that divides the inside of the main body into an indoor passage and an outdoor passage, and a heat exchanger and a cross flow fan are disposed in both of the divided passages. In this product, the casing is made of extruded foamed plastic divided into an indoor casing and an outdoor casing, so it has excellent heat insulation, is extremely lightweight, and is inexpensive in terms of material cost. However, it is possible to provide a casing that can be manufactured very easily.

Furthermore, since the casing is divided into indoor and outdoor casings, even though it is an extruded product, even if the cross-sectional shape of the casing changes, such as in a window air conditioner, the same cross-sectional shape can be manufactured separately. By combining these, you can easily deal with the problem and improve material collection.

[Brief explanation of the drawing]

Fig. 1 is a cross-sectional view of an embodiment of the present invention, and Fig. 2 is a cross-sectional view of an embodiment of the present invention.
An exploded perspective view of the same as above. 1: Main body, 2: Casing, 2a: Indoor casing, 2b: Outdoor casing, 3: Indoor passage, 4: Outdoor passage, 5: Indoor heat exchanger, 7:
Indoor side cross flow fan, 8: Outdoor side heat exchanger, 10: Outdoor side cross flow fan.

Claims (1)

[Scope of Claim for Utility Model Registration] The main body is provided with a casing that divides the inside of the main body into an indoor passage and an outdoor passage, and a heat exchanger and a cross flow fan are disposed in both of the divided passages. An air conditioner characterized in that the casing is composed of an extruded foamed plastic product divided into an indoor casing and an outdoor casing.