WO2011127803A1 - Wall mounted air conditioner and air outlet structure of its indoor unit - Google Patents

Abstract

An air outlet structure for an indoor unit of a wall mounted air conditioner includes an air guide plate bracket (20) fixed at the lower part of the indoor unit of the wall mounted air conditioner, an upper air outlet plate (30), a lower air outlet plate (40), and an air guide plate (10) pivotally connected to the air guide plate bracket (20). An air outlet (34) is formed between the upper air outlet plate (30) and the lower air outlet plate (40). A pivoting part is disposed in the upper part of the air guide plate (10) along a horizontal axis. The lower part of the air guide plate (10) swings around the pivoting part, and has an air outlet close position by cooperating with the lower air outlet plate (40), and an air outlet open position as departing from the lower air outlet plate (40). Also disclosed is a wall mounted air conditioner, which includes the above air outlet structure for an indoor unit of a wall mounted air conditioner.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of refrigeration, and more particularly to a structure of an air outlet of a wall-mounted air conditioner and an indoor unit thereof. BACKGROUND OF THE INVENTION A conventional wall-mounted air conditioner indoor unit includes a casing, an evaporator located in the casing, a fan blade, a wind deflector bracket located at a lower portion of the casing, an upper air outlet plate, a lower air outlet plate, and a wind deflector The air deflector and the like that are pivotally connected to the bracket. An air outlet is formed between the upper air outlet and the lower air outlet (the air outlet near the upper air outlet is generally referred to as an upper air outlet, and the air outlet near the lower air outlet is referred to as a lower air outlet;), the wind guide The plate is located between the upper air outlet and the lower air outlet. When the indoor unit of the wall-mounted air conditioner runs the air supply, after the first start, the air deflector generally rotates from the top to the bottom to open the air outlet (front to the user), that is, first open the upper air outlet, then open the lower air outlet. Since the air deflector is rotated from top to bottom, the opened air deflector is located near the lower air outlet plate, and the air outlet is arranged in a manner that the air deflector is received by the air outlet for accommodating the space limitation of the air deflector and The influence of the structure of the air outlet plate causes the air deflector to sweep up and down the air outlet when the air conditioner is running indoors, especially the area below the air conditioner cannot be directly affected by the cold air or hot air blown from the air outlet. , causing problems such as uneven temperature distribution in the room. If the indoor unit of the wall-mounted air conditioner is installed at a high position and the user is close to the indoor unit, cold air or hot air cannot be blown to the user, which affects the user's comfort in using the air conditioner. SUMMARY OF THE INVENTION The present invention is directed to an air outlet structure of a wall-mounted air conditioner and an indoor unit thereof, which solves the problem of a small wind sweeping range of an air outlet of an indoor unit of a wall-mounted air conditioner in the prior art. According to an aspect of the present invention, an air outlet structure of a wall-mounted air conditioner indoor unit is provided, including an air deflector bracket fixed to a lower portion of a wall-mounted air conditioner indoor unit, an upper air outlet panel, a lower air outlet panel, and An air guiding plate pivotally connected to the wind deflector bracket, an air outlet is formed between the upper air outlet plate and the lower air outlet plate, and an upper portion of the air guiding plate is provided with a pivoting portion arranged along a horizontal axis, and a lower portion of the air guiding plate surrounds the pivot The rotating portion swings, has an air outlet closing position combined with the lower air outlet plate, and an air outlet opening position that is outwardly separated from the lower air outlet panel. Further, the lower surface of the upper air outlet plate has a concave arc shape. Further, the lower surface of the upper air outlet plate has a concave shape corresponding to the movement trajectory of the upper side edge of the air deflector. Further, when the outer surface of the air deflector is curved, and the lower portion of the air deflector is located at the closed position of the air outlet, the outer surface of the air deflector and the panel of the indoor unit of the wall-mounted air conditioner are smoothly transitioned. Further, a cross section of the lower surface of the concave curved upper air outlet plate is in an involute type. Further, the air deflector includes at least two layers connected by a plurality of ribs, and an air guiding passage is formed between each adjacent two layers. Further, the wind deflector bracket is connected to the ribs at both ends of the wind deflector. Further, the air deflector comprises two layers, which are an outer layer and an inner layer, respectively, and the width of the inner layer is smaller than the width of the outer layer. Further, the lower air outlet plate has a concave limiting portion, and when the lower portion of the air guiding plate is located at the air outlet closing position, the lower end of the air guiding plate overlaps the concave limiting portion. According to another aspect of the present invention, there is also provided a wall-mounted air conditioner comprising the air outlet structure according to any of the preceding claims. The air outlet structure of the indoor unit of the wall-mounted air conditioner according to the present invention, because the upper portion of the air deflector is provided with a pivot portion arranged along the horizontal axis; the lower portion of the air deflector swings around the pivot portion, and has a phase with the lower air duct The combined air outlet is closed and the air outlet opening position of the lower air outlet is outward. In this way, when the air conditioner is running, the air deflector is rotated from bottom to top to open, first open the lower air outlet, then open the upper air outlet, cold air or hot air is blown out from the lower air outlet, blows directly under the indoor unit, and then guides When the wind plate rotates, the air supply angle gradually increases, and the air supply range gradually expands from the range close to the indoor unit to the range away from the indoor unit, and the air deflector can be rotated to the horizontal direction, that is, the wind can be blown horizontally, so that the air is blown. The scope can also be extended to the roof, thereby overcoming the problem that the wind sweeping range of the indoor air outlet of the wall-mounted air conditioner of the prior art is small, and the effect of expanding the air supply range, uniformizing the room temperature, and improving the comfort of the user is achieved. . The drawings are intended to provide a further understanding of the invention, and are intended to be a part of the invention. In the drawings: Fig. 1 is a schematic side sectional view showing the structure of an air outlet of an indoor unit of a wall-mounted air conditioner of the present invention, wherein a lower portion of the air deflector is located at a position where the air outlet is closed; A side cross-sectional structure of an air outlet structure of the indoor unit of the wall-mounted air conditioner of the present invention, wherein a lower portion of the air deflector is in a moving state from a closed position of the air outlet to an open position of the air outlet; FIG. 3 schematically shows The three-dimensional structure of the air deflector in the air outlet structure of the wall-mounted air conditioner indoor unit of the invention; FIG. 4 is a schematic side view showing the side view structure of the air deflector in the air outlet structure of the indoor unit of the wall-mounted air conditioner of the present invention; 5 schematically shows the structure of the indoor unit of the wall-mounted air conditioner of the present invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict. The invention will be described in detail below with reference to the drawings in conjunction with the embodiments. 1 to 4 are schematic views showing the structure of an air outlet structure of a wall-mounted air conditioner indoor unit according to the present invention. As shown, the air outlet structure includes a wind deflector fixed to a lower portion of an indoor unit of an air conditioner. The bracket 20, the upper air outlet 30, the lower air outlet 40, and the air deflector 10 pivotally connected to the air deflector bracket 20, the upper air outlet 30 and the lower air outlet 40 form an air outlet 34. The upper air outlet 30 and the lower air outlet 40 are generally integrally injection molded with the housing of the wall air conditioner indoor unit. The upper portion of the wind deflector 10 has a 4-zone turn arranged along the horizontal axis; the lower portion of the wind deflector 10 swings around the 4-zone turn and has an air outlet closed position combined with the lower air deflector 40 (Fig. 1) Shown) and the air outlet opening position (not shown) that leaves the lower air outlet. When the lower portion of the air deflector 10 is located at the air outlet opening position, the outer surface of the air deflector 10 is adjacent to the upper air outlet plate 30, that is, the air guiding plate 10 is opened and opened from the bottom to the top, as shown in FIG. The direction indicated by the arrow. The air deflector 10 is driven, for example, by a motor provided in the indoor unit of the wall-mounted air conditioner, thereby generating a relative wind deflector The rotational movement of the frame 20. It is easy to understand that when the lower portion of the air deflector 10 is located at the air outlet opening position, it corresponds to the open state of the air deflector 10; when the lower portion of the air deflector 10 is in the air outlet closing position, it corresponds to the closed state of the wind deflector 10. As can be seen from FIG. 1, the outer surface of the wind deflector 10 is further curved, and the outer surface of the air deflector 10 and the panel of the wall-mounted air conditioner indoor unit are in a closed state in which the air outlet 34 is closed. 70 Smooth transition, this does not affect the overall uniformity and appearance of the interior of the wall-mounted air conditioner. The lower surface of the upper air outlet plate 30 has a concave arc shape. When the air deflector 10 is driven by the motor of the wall-mounted air conditioner indoor unit, the concave curved upper air outlet plate 30 may be the upper portion of the air guiding plate 10. When the air deflector 10 rotates, the upper air deflector 30 does not occur, so that the wind deflector 10 can be smoothly opened, the rotation angle of the wind deflector 10 is increased, and the indoor unit of the wall-mounted air conditioner is further increased. Air supply angle and air supply range. According to the air outlet structure of the indoor unit of the wall-mounted air conditioner according to the present invention, when the indoor unit of the wall-mounted air conditioner is operated, the air deflector 10 is rotated from the bottom to the top to open the air outlet 34, that is, the lower air outlet 34b is opened first, and then the upper air outlet 34b is opened. The tuyere 34a, such that cold air or hot air is blown out from the lower air outlet 34b, the wind can be blown directly under the indoor unit, and then with the rotation of the wind deflector 10, the air supply angle is gradually increased, and the air supply range is close to the indoor The machine gradually expanded away from the indoor unit. Moreover, since the air deflector 10 is rotated from the bottom to the top, the wind deflector 10 can be rotated to the horizontal direction, that is, the wind can be blown horizontally, so that the air supply range can be expanded to the roof. Thereby, the air supply range of the wall-mounted air conditioner is expanded, so that the room is in the lower area of the indoor unit of the wall-mounted air conditioner and other areas can be uniformly heated or cooled, so that the room temperature is uniform and the user's comfort is improved. effect. 1 and 2 show an embodiment of the concave curved upper air outlet 30. As shown, the lower surface of the concave curved upper air outlet 30 has an involute cross section, which is convenient for manufacture. The concave curved upper air outlet 30 can not only increase the air supply range of the air deflector 10, but also effectively improve the condensation phenomenon of the indoor unit of the wall-mounted air conditioner. Because the upper air outlet 30 of the indoor wall-mounted air conditioner indoor unit is provided as a flat plate, when the air conditioner is in direct contact with the indoor hot air during the cooling operation, it is easy to form at the outermost end of the upper air outlet plate 30; After the upper air deflector 30 is set to a concave arc shape, the airflow flows out along the concave arc and gradually contacts the hot air to achieve a buffering effect, so that the condensation can be effectively reduced. Of course, the concave curved upper air deflector 30 has various other embodiments, and is not limited to the above-described involute type, as long as the wind deflector 10 can be smoothly rotated from bottom to top. For example, in an unillustrated manner, the lower surface of the upper air deflector 30 has a concave shape corresponding to the locus of movement of the upper side edge of the wind deflector 10. Further, in order to enhance the air blowing effect, as shown in Figs. 3 and 4, the wind deflector 10 of the present invention may further have a two-layer structure. The double-layer structure air deflector includes an outer layer plate 101 and an inner layer plate 102, and the outer layer plate 101 and the inner layer plate 102 are connected by a plurality of ribs 103 disposed therebetween to make the outer layer plate 101 and the inner layer A wind guide passage 104 is formed between the plates 102. The wind deflector bracket 20 and the rib 103 located at both ends of the wind deflector 10 are pivotally connected by a hinge, so that the connection structure of the wind deflector bracket 20 and the wind deflector 10 is simple and the connection between the two is stable. In order for the wind deflector 10 to be smoothly opened and closed, the length of the inner layer panel 102 is the same as the length of the outer layer panel 101, and the width of the inner layer panel 102 is smaller than the width of the outer layer panel 101. When the wind deflector 10 is in the closed state, the outer surface of the outer panel 101 and the panel housing 70 of the wall-mounted air conditioner smoothly transition. According to the wind deflector structure of the present invention, the double-layer structure wind deflector 10 of the present invention has the advantages of a farther wind distance and a larger sweep angle than the wind deflector 10 of the single-layer structure. It can also be seen from FIG. 1 and FIG. 2 that the lower air outlet 40 further has a concave limiting portion 40a. When the air guiding plate 10 is in the closed state, the lower end of the air guiding plate 10 just overlaps the concave limit. On the part 40a. Thus, when the lower end of the air deflector 10 is overlapped to the concave limiting portion 40a when the air deflector 10 is from the open state to the closed state, it can be known by the sensor that the air deflector 10 has been closed in place, and the air deflector is avoided. 10 pairs of air outlets 34 are not tightly sealed. It should be noted that the upper air outlet 30 is not limited to the concave curved structure described in the above embodiment, and the upper air outlet 30 may have the premise that the air deflector 10 is rotated from the bottom to the top. Other suitable structures are not mentioned here. In addition, in the above embodiment, the wind deflector 10 has a two-layer structure. In practical applications, the wind deflector 10 may have a single layer structure or a multi-layer structure of more than two layers. When the wind deflector 10 is a multi-layer structure of more than two layers, preferably, each adjacent two-layer plates are connected by ribs and form an air guiding passage 104 to enhance the wind guiding effect of the wind deflector. The present invention also provides a wall-mounted air conditioner. As shown in FIG. 1 to FIG. 5, the indoor unit of the wall-mounted air conditioner includes a casing (including the panel casing 70), an evaporator 60 located in the casing, and a fan blade. 50. In the air outlet structure of the wall-mounted air conditioner of the foregoing, the air enters from an air inlet (not shown) located at an upper portion of the casing, and is blown out from the air outlet 34. The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the scope of the present invention are intended to be included within the scope of the present invention.

Claims

Claim

1. An air outlet structure of a wall-mounted air conditioner indoor unit, comprising an air deflector bracket (20), an upper air outlet panel (30), and a lower air outlet panel (40) fixed to a lower portion of the indoor unit of the wall-mounted air conditioner And a wind deflector (10) pivotally connected to the wind deflector bracket (20), the upper air deflector

(30) forming an air outlet (34) with the lower air outlet plate (40), wherein an upper portion of the air guiding plate (10) is provided with a pivoting portion arranged along a horizontal axis; a lower portion of the wind plate (10) swings around the pivoting portion, and has an air outlet closing position combined with the lower air outlet plate (40) and an air outlet opening outwardly away from the lower air outlet plate (40) Open the location.

2. The air outlet structure according to claim 1, wherein the lower surface of the upper air outlet (30) has a concave arc shape.

The air outlet structure according to claim 1, wherein a lower surface of the upper air outlet plate (30) has a concave arc shape corresponding to a movement locus of an upper side edge of the air guiding plate.

4. The air outlet structure according to claim 2, wherein

 The outer surface of the air guiding plate (10) is curved, and the lower portion of the air guiding plate (10) is located at the closed position of the air outlet, the outer surface of the air guiding plate (10) and the wall-mounted air conditioner The panel (70) of the indoor unit has a smooth transition.

The air outlet structure according to claim 2, wherein a cross section of the lower surface of the concave curved upper air deflector (30) is in an involute type.

The air outlet structure according to any one of claims 1 to 5, characterized in that

 The air deflector (10) includes at least two layers connected by a plurality of ribs (103), and an air guiding passage (104) is formed between each adjacent two layers.

7. The air outlet structure according to claim 6, wherein the air deflector bracket (20) is connected to the ribs (103) at both ends of the air deflector (10).

The air outlet structure according to claim 7, wherein the air deflector (10) comprises two layers, which are an outer layer (101) and an inner layer (102), respectively, the inner layer The width of the plate (102) is less than the width of the outer plate (101).

The air outlet structure according to claim 8, wherein the lower air outlet plate (40) has a concave limiting portion (40a), and a lower portion of the air guiding plate (10) is located at the outlet When the tuyere is in the closed position, the lower end of the air deflector (10) is overlapped on the concave limiting portion (40a).

A wall-mounted air conditioner comprising the air outlet structure according to any one of claims 1 to 9.