CN108759049B

CN108759049B - Breeze type air conditioner air outlet structure

Info

Publication number: CN108759049B
Application number: CN201810815232.0A
Authority: CN
Inventors: 曾晓程; 倪学钟
Original assignee: Anhui Yangzi Air Conditioning Co ltd
Current assignee: Anhui Yangzi Air Conditioning Co ltd
Priority date: 2018-07-24
Filing date: 2018-07-24
Publication date: 2023-10-20
Anticipated expiration: 2038-07-24
Also published as: CN108759049A

Abstract

The application discloses a breeze type air conditioner air outlet structure, which comprises an air outlet arranged on an air conditioner shell, an air deflector rotatably arranged on the air conditioner shell and matched with the air outlet, and an air duct component arranged in the air conditioner shell, wherein the air duct component forms an air duct for guiding air flow generated by an air conditioner to the air outlet, and a plurality of air outlet holes are formed in the air deflector. The application can lead part of wind flow to pass through the air deflector and scatter and flow out while guiding the wind, and can prevent the wind flow from bypassing the air deflector and flowing out from the part of the air outlet which does not need the air outlet.

Description

Breeze type air conditioner air outlet structure

Technical Field

The application relates to the field of air conditioners, in particular to an air outlet structure of a breeze type air conditioner.

Background

The existing air conditioner air outlet structure comprises an air outlet formed in an air conditioner shell and an air guide plate which is rotatably arranged on the air conditioner shell and matched with the air outlet, the air outlet can be opened and closed by rotating the air guide plate, and when the air guide plate is in an opened state, the air outlet angle can be adjusted by adjusting the angle of the air guide plate.

The modern people have higher comfort demands on the air conditioner, and the existing air outlet structure of the air conditioner mostly has the effects, so that the expectations of consumers cannot be met, for example, an air deflector guides air flow to the lower part of a room, the air deflector directly blows the human body, discomfort is easily caused, and if the air flow is guided to the upper part of the room, people can feel cool or warm after a period of time.

Disclosure of Invention

The application aims to solve the technical problem of providing a breeze type air conditioner air outlet structure which can lead part of air flow to pass through an air deflector and scatter and flow out while guiding air, and can prevent the air flow from bypassing the air deflector and flowing out from a part of an air outlet which does not need air outlet.

In order to solve the technical problems, the application adopts the following technical scheme: the breeze type air conditioner air outlet structure comprises an air outlet formed in an air conditioner shell, an air deflector rotatably mounted on the air conditioner shell and matched with the air outlet, and an air duct component arranged in the air conditioner shell, wherein the air duct component forms an air duct for guiding air flow generated by an air conditioner to the air outlet, and a plurality of air outlet holes are formed in the air deflector;

in the first air outlet state, the air deflector rotates until one end extends into one side of the air duct, the other end is positioned outside the air outlet, the air outlet is opened, the part of the air outlet positioned on the inner side of the air deflector is communicated with the air duct, and the part of the air outlet positioned on the outer side of the air deflector is cut off by the air deflector;

in a second air outlet state, the air deflector rotates until one end of the air deflector extends into the other side of the air duct, the other end of the air deflector is positioned outside the air outlet, the air outlet is opened, the part of the air outlet positioned outside the air deflector is communicated with the air duct, and the part of the air outlet positioned inside the air deflector is cut off by the air deflector;

and in the dormant air outlet state, the air deflector rotates to a position for closing the air outlet.

Further, the air outlet is configured to: and in the dormant air outlet state, the included angle between the axial direction of the air outlet hole and the horizontal plane is 0-30 degrees.

Further, the air outlet is configured to: and in the dormant air outlet state, the axial direction of the air outlet hole is parallel to the horizontal plane.

Further, the rotation axis of the air deflector is parallel to the horizontal plane, and in the first air outlet state, the air deflector is in a horizontal state.

Further, the air outlet holes are densely distributed on the air deflector.

Further, a plurality of reinforcing rib plates which are arranged at intervals are arranged on the inner surface of the air deflector.

Further, the reinforcing rib plate positioned on the left side of the central line in the width direction of the air guide plate gradually bends and extends leftwards from one end to the other end in the width direction of the air guide plate, and the reinforcing rib plate positioned on the right side of the central line in the width direction of the air guide plate gradually bends and extends rightwards from one end to the other end in the width direction of the air guide plate.

Further, the air duct component comprises a first air deflector and a second air deflector, the extending directions of the first air deflector and the second air deflector are the same as the extending directions of the air deflector, and the air duct is formed between the first air deflector and the second air deflector.

Further, the first wind deflector corresponds to one side of the air outlet, the second wind deflector corresponds to the other side of the air outlet, the first wind deflector comprises an inner wind deflector and an outer wind deflector which are mutually spliced, the outer wind deflector extends to be propped against the inner wind deflector from one side edge of the air outlet to the inside of the air conditioner shell, and one side, close to the outer wind deflector, of the inner wind deflector is provided with a connecting plate which extends outwards and is used for being fixed on the inner wall of the air conditioner shell.

Further, the cross section of the inner surface of the inner wind deflector is circular arc, and the axis of the circular arc is collinear with the rotation axis of the wind deflector.

The beneficial effects of the application are as follows:

the air outlet holes are innovatively formed in the air deflector, so that most of air flow can be guided to the upper part of a room by the air deflector, and meanwhile, a small part of air flow can pass through the air deflector to blow to the lower part of the room through the air outlet holes, and the small part of air flow is scattered through the air outlet holes, so that the air feeling is greatly reduced, the air deflector is very comfortable, and a user can feel cool or warm immediately.

In addition, the air conditioner provided by the application can enter a dormant air outlet state after the ambient temperature reaches a set value, and air flow generated in the air conditioner can be blown out from the air outlet of the air deflector, so that the air conditioner has almost no wind sensation in a heat preservation state and has very high comfort level.

The air duct component is additionally arranged on the basis of the prior art, the formed air duct has a guiding function, so that air flow generated by the air conditioner can flow out of the air outlet more smoothly and efficiently, on the other hand, the air duct is more important to limit an air flow path, the air deflector cannot close the part of the air outlet which does not need air outlet, but can intercept the air flow path between the part of the air outlet which does not need air outlet and the air duct, so that the air flow can be prevented from flowing out of the part of the air outlet which does not need air outlet, the first air outlet state and the second air outlet state can lead the air flow out of the air outlet in a fully concentrated mode, in the guiding process, a small part of the air flow passes through the air outlet hole to be prevented from flowing out, when the air conditioner is applied to a wall-mounted air conditioner, most of the air flow can be blown to the upper part of a room, a small part of the air flow passes through the air outlet hole to be scattered and then blown to the lower part of the air duct, and in the air duct can be prevented from flowing out of the air outlet to the whole room as soon as possible, and simultaneously, the small part of the air flow can not be regulated and controlled to be blown to the upper part of the room, and the temperature of the room can be prevented from being blown to the room as soon as possible.

The application has simple structure, easy manufacture and good application prospect.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application in a first air outlet state (applied to a wall-mounted air conditioner).

Fig. 2 is a schematic structural diagram of an embodiment of the present application in a second air outlet state (applied to a wall-mounted air conditioner).

Fig. 3 is a schematic perspective view of an air deflector according to an embodiment of the present application.

Fig. 4 is a schematic plan view of an air deflector according to an embodiment of the present application.

FIG. 5 is a schematic cross-sectional view of an air deflection panel in accordance with one embodiment of the present application.

The components in the drawings are marked as follows: 1 air outlet, 2 air deflectors, 21 air outlet holes, 22 reinforcing rib plates, 30 air channels, 31 inner air deflectors, 32 outer air deflectors, 33 second air deflectors and 34 connecting plates.

Detailed Description

The present application will be described in detail below with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other.

See fig. 1 to 5.

The application discloses a breeze type air conditioner air outlet structure, which comprises an air outlet 1 arranged on an air conditioner shell, an air deflector 2 rotatably arranged on the air conditioner shell and matched with the air outlet 1, and an air duct component arranged in the air conditioner shell, wherein the air duct component forms an air duct 30 for guiding air flow generated by the air conditioner to the air outlet 1, and a plurality of air outlet holes 21 are formed in the air deflector 2;

in the first air outlet state, the air deflector 2 rotates until one end extends into one side of the air duct 30, the other end is positioned outside the air outlet 1, the air outlet 1 is opened, a part of the air outlet 1 positioned at the inner side of the air deflector 2 is communicated with the air duct 30, and a part of the air outlet 1 positioned at the outer side of the air deflector 2 is cut off by the air deflector 2 from the air duct 30;

in the second air outlet state, the air deflector 2 rotates until one end extends into the other side in the air duct 30, the other end is positioned outside the air outlet 1, the air outlet 1 is opened, the part of the air outlet 1 positioned outside the air deflector 2 is communicated with the air duct 30, and the part of the air outlet 1 positioned inside the air deflector 2 is cut off by the air deflector 2 from the air duct 30;

in the dormant air outlet state, the air deflector 2 rotates to a position (not shown) for closing the air outlet 1.

The air guide plate in the prior art is not provided with the air outlet holes, and the air generated by the air conditioner cannot pass through the air guide plate, but the air guide plate is creatively provided with the air outlet holes, so that when the air guide plate guides most of air flow to the upper part of a room, a small part of air flow can pass through the air guide plate to blow to the lower part of the room through the air outlet holes, and the channel of the air outlet holes is smaller, so that the small part of air flow can be scattered by the air outlet holes, the air sense is greatly reduced, and the air guide plate is very comfortable, and a user can feel cool or warm immediately;

the air conditioner provided by the application can enter a dormant air outlet state after the ambient temperature reaches a set value (the environment can be maintained at the set value only by needing less air quantity at the moment and is equivalent to a heat preservation state), and in the dormant air outlet state, the air deflector is positioned at a position for closing the air outlet, and the air flow generated by the air conditioner can be blown out from the air outlet on the air deflector, so that the air conditioner has almost no wind sensation in the heat preservation state and has very high comfort level;

in addition, in order to prevent wind from bypassing the air deflector (although most wind is limited by the air deflector to flow out from the part of the air outlet on one side of the air deflector at a certain angle, the part of the air outlet on the other side of the air deflector cannot be completely blocked by the air deflector, so that the wind does not pass through the air outlet hole on the air deflector but bypasses the air deflector to remove the first wind deflector in the specification, and the situation can be understood), the application adds an air duct component on the basis of the prior art, and the formed air duct has a guiding function, so that the wind flow generated by the air conditioner can flow out from the air outlet more smoothly and efficiently, and on the other hand, the air duct is limited with an air flow path, and the air deflector cannot close the part of the air outlet which does not need to flow out, but the aviation baffle can cut off the wind flow path between the part of the air outlet that does not need the air outlet and the wind channel to this can prevent the wind flow from flowing out from the part of the air outlet that does not need the air outlet, the first air outlet state and the second air outlet state that form like this can concentrate the wind flow completely and export from two different angles, and in this derivation process, little wind flow passes the apopore and goes out, avoid having the wind flow to bypass the aviation baffle, when being applied to the wall-hanging air conditioner, can be used for the refrigeration respectively, most wind flow blows to room upper portion, little wind flow blows to room lower part after being broken up through the apopore, when heating, most wind flow blows to room lower part, little wind flow blows to room upper portion through the apopore, as shown in fig. 2, can make the whole temperature of room regulated and controlled as soon as possible, simultaneously can avoid cold wind to blow to the human body directly and cause the discomfort again.

The "inner side" and "outer side" herein mean the inner surface side and the outer surface side of the air guide plate, and the inner surface and the outer surface of the air guide plate are determined based on the state where they are in the air outlet closing state. The "cut-off" is to prevent the wind flow in the air duct from entering the corresponding part of the air outlet, and the sealing degree of the "cut-off" is to be on the premise that the rotation of the air deflector is not affected, i.e. the inner wall of the air duct cannot cause the air deflector to rotate reciprocally.

In an embodiment, the air outlet 21 is configured to: in the dormant air outlet state, the included angle between the axial direction of the air outlet hole 21 and the horizontal plane is 0-30 degrees. The design is more suitable for wall-hanging air conditioner, and wall-hanging air conditioner is generally installed at the top of room, like this under the sleep mode, the air-conditioner air-out is about in the horizontal direction, is difficult to blow to the human body, and the effect is better, and the comfort level is better.

Preferably, the air outlet 21 is configured to: in the dormant air outlet state, the axial direction of the air outlet 21 is parallel to the horizontal plane. By the design, in the sleep mode, the air conditioner can horizontally discharge air, and the comfort and the temperature control effect are better. Fig. 5 illustrates this situation, and of course, there is a difference in the air conditioning structure, and there is a possibility that there is a difference in the specific arrangement angle of the air guide plate when the air guide plate is in the closed state, so that the angle of the axial direction of the air hole relative to the air guide plate can be determined according to the actual application situation.

The application is especially suitable for wall-mounted air conditioners.

In one embodiment, the air outlets 21 are densely distributed on the air deflector 2. The design is so that the air outlet range passing through the air deflector is larger, and the air outlet effect is better.

In one embodiment, the air outlet holes 21 are arranged in rows and columns along the length direction and the width direction of the air deflector 2. The design has better wind current scattering effect, more regular appearance and elegant appearance.

In specific implementation, the size and arrangement density of the air outlet holes can be set according to specific requirements.

In one embodiment, the cross section of the air deflector 2 is arc-shaped. The design is easier to be matched with an air outlet of the air conditioner, and is more suitable for being combined with more than two air deflectors.

In one embodiment, as shown in fig. 5, the radial direction of the air deflector 2 passing through the middle point of the cross section thereof forms an angle of 45 degrees with the axial direction of the air outlet 21. The design is like this, the aviation baffle can close the air outlet and get into dormancy air-out state when self is in approximately 45 degrees states, and at this moment, the air-out hole air-out is approximately in the horizontal direction, and when the aviation baffle is approximately in the horizontal state, the aviation baffle can be with the horizontal derivation of most wind flows, and the vertical blowout of little wind flows through the air-out hole.

In one embodiment, a plurality of reinforcing ribs 22 are arranged on the inner surface of the air deflector 2 at intervals. The reinforcing rib plate plays a role in reinforcing the structure on one hand and plays a role in guiding flow on the other hand.

In one embodiment, the reinforcing ribs 22 are perpendicular to the inner surface of the air deflector 2. The design is better in reinforcing and guiding effects.

In one embodiment, the reinforcing rib 22 located at the left side of the center line in the width direction of the air guide plate 2 is gradually bent and extended leftwards from one end to the other end in the width direction of the air guide plate 2, and the reinforcing rib 22 located at the right side of the center line in the width direction of the air guide plate 2 is gradually bent and extended rightwards from one end to the other end in the width direction of the air guide plate 2. By the design, the reinforcing rib plates can disperse wind flow to the left and right sides, the wind outlet range is larger, the wind outlet range is more divergent, and the effect is better. The left and right sides of the air deflector are the two sides in the length direction.

In an embodiment, the rotation axis of the air deflector 2 is parallel to the horizontal plane, and in the first air outlet state, the air deflector 2 is in a horizontal state. The design is in order to match the refrigerating mode of the wall-mounted air conditioner, so that cold air can be blown out horizontally, the wall-mounted air conditioner is generally arranged at the top of a room, and therefore the wall-mounted air conditioner cannot blow to a human body or a roof, and the effect is better.

The horizontal state is, of course, clear for air deflectors of flat plate structure, and there is no accurate calculation for air deflectors of non-flat plate structure, in which case the wind is blown out as horizontally as possible.

In an embodiment, the air duct component includes a first air deflector and a second air deflector 33, the extending direction of the first air deflector and the second air deflector 33 is the same as the extending direction of the air deflector 2, and the air duct 30 is formed between the first air deflector and the second air deflector 33. The design is simple in structure and easy to implement.

In an embodiment, the first wind deflector corresponds to one side of the air outlet 1, the second wind deflector 33 corresponds to the other side of the air outlet 1, the first wind deflector 1 comprises an inner wind deflector 31 and an outer wind deflector 32 which are mutually spliced, the outer wind deflector 32 extends from a side opening edge of the air outlet 1 to the inside of the air conditioner shell to abut against the inner wind deflector 31, and a connecting plate 34 which extends outwards and is used for being fixed on the inner wall of the air conditioner shell is arranged on one side, close to the outer wind deflector 32, of the inner wind deflector 31. The direction of one side and the other side of the air deflector is the same as the direction of one end and the other end of the air deflector in a closed state, so that the air deflector is designed, has reasonable structure, is easy to manufacture and install, and has more stable and reliable structure.

In one embodiment, the cross section of the inner surface of the inner wind deflector 32 is circular arc, and the axis of the circular arc is collinear with the rotation axis of the wind deflector 1. By means of the design, one end of the air deflector can extend into an air channel area corresponding to the inner wind deflector to form a first air outlet state, the inner surface of the inner wind deflector is good in matching degree, and the range of the first air outlet state is larger.

It should be understood that the examples and embodiments described herein are for illustrative purposes only and are not intended to limit the present application, and that various modifications or changes in light thereof will be suggested to persons skilled in the art and are to be included within the spirit and purview of this application.

Claims

1. Breeze formula air conditioner air-out structure, including seting up the air outlet on the air conditioner casing and rotate install on the air conditioner casing with air outlet complex aviation baffle, its characterized in that: the air conditioner also comprises an air duct component arranged in the air conditioner shell, wherein the air duct component forms an air duct for guiding air flow generated by the air conditioner to the air outlet, and a plurality of air outlet holes are formed in the air deflector; a plurality of reinforcing rib plates which are arranged at intervals are arranged on the inner surface of the air deflector;

the air duct component comprises a first air baffle and a second air baffle, the extending directions of the first air baffle and the second air baffle are the same as the extending directions of the air deflector, and the air duct is formed between the first air baffle and the second air baffle;

the first wind shield corresponds to one side of the air outlet, the second wind shield corresponds to the other side of the air outlet, the first wind shield comprises an inner wind shield and an outer wind shield which are mutually spliced, the outer wind shield extends from one side edge of the air outlet to the inside of the air conditioner shell to be abutted against the inner wind shield, and one side, close to the outer wind shield, of the inner wind shield is provided with a connecting plate which extends outwards and is used for being fixed on the inner wall of the air conditioner shell;

the cross section of the inner surface of the inner wind shield is arc-shaped, and the axis of the arc-shaped is collinear with the rotating shaft of the wind deflector;

2. The breeze type air conditioner air outlet structure as set forth in claim 1, wherein: the air outlet is configured to: and in the dormant air outlet state, the included angle between the axial direction of the air outlet hole and the horizontal plane is 0-30 degrees.

3. The breeze type air conditioner air outlet structure as set forth in claim 2, wherein: the air outlet is configured to: and in the dormant air outlet state, the axial direction of the air outlet hole is parallel to the horizontal plane.

4. A breeze type air conditioner air outlet structure as defined in claim 1, 2 or 3, wherein: the rotation axis of the air deflector is parallel to the horizontal plane, and in the first air outlet state, the air deflector is in a horizontal state.

5. A breeze type air conditioner air outlet structure as defined in claim 1, 2 or 3, wherein: the air outlet holes are densely distributed on the air deflector.

6. The breeze type air conditioner air outlet structure as set forth in claim 1, wherein: the reinforcing rib plate positioned on the left side of the central line in the width direction of the air guide plate gradually bends and extends leftwards from one end to the other end in the width direction of the air guide plate, and the reinforcing rib plate positioned on the right side of the central line in the width direction of the air guide plate gradually bends and extends rightwards from one end to the other end in the width direction of the air guide plate.