CN107940547B - Wall-mounted air deflector, regulation and control method thereof and wall-mounted air conditioner - Google Patents

Abstract

The invention relates to the technical field of wall-mounted air conditioners, in particular to a wall-mounted air conditioner air deflector, a regulating method thereof and a wall-mounted air conditioner, wherein the wall-mounted air deflector comprises at least two air deflector bodies arranged between a volute tongue guide wall and a volute throat guide wall; the lengths of the air deflector bodies gradually decrease along the direction from the volute tongue guide wall to the volute throat guide wall, and the widths of the air deflector channels gradually increase along the direction from the volute tongue guide wall to the volute throat guide wall. The invention has the beneficial effects that the layering of the wind speed of the air outlet, the redistribution of the wind pressure and the falling of the air flow blown out by the same air outlet in different distances of a room can be realized, the whole room can be quickly covered by the air flow without directly blowing people, the dual lifting of comfort and energy saving can be realized, the space between the multi-layer air deflector main body can be adjusted in the moving process, the air flow pressurization and depressurization of the air outlet can be realized, or the air deflectors are overlapped, and the quick falling without attenuation of far-field air supply, near-field air supply and heating air quantity can be realized.

Description

Wall-mounted air deflector, regulation and control method thereof and wall-mounted air conditioner

Technical Field

The invention relates to the technical field of wall-mounted air conditioners, in particular to a wall-mounted air conditioner air deflector, a regulating and controlling method thereof and a wall-mounted air conditioner.

Background

When the wall-mounted air conditioner is installed, a certain height is needed, and cold/hot air is blown out from an air outlet of the machine body to realize refrigeration and heating of a certain space, wherein an air deflector is arranged at the air outlet of the machine body for conveniently adjusting the air outlet direction, and the direction of air outlet is adjusted by adjusting the guiding angle of the air deflector.

At present, the air outlet of the air deflector of the wall-mounted air conditioner has stronger directivity, namely, when far-field air is sent, the position of the air deflector is horizontal or slightly raised; when near-field air supply is performed, the air deflector is inclined downwards, and air flow is blown downwards to a designated position in an inclined way. The following disadvantages exist in the case of stronger directivity of the air outlet:

(1) the large-range air flow coverage cannot be performed;

(2) the air flow coverage can not be carried out under the condition of no blowing, so that the comfort is low;

(3) the hot air cannot fall to the ground quickly, and the hot air cannot cover and circulate quickly, so that the energy consumption is high;

(4) the air quantity is attenuated during heating.

Disclosure of Invention

The invention aims to provide a wall-mounted air deflector, a regulation and control method thereof and a wall-mounted air conditioner, which are used for solving the technical problems that the air outlet directivity of the air conditioner is strong, the air conditioner cannot be covered in a large range, the comfort is low, the energy consumption of hot air cannot be quickly dropped to the ground, and the air quantity is attenuated in the prior art.

To achieve the purpose, the invention adopts the following technical scheme:

the wall-mounted air deflector comprises at least two air deflector bodies arranged between a volute tongue guide wall and a volute throat guide wall, wherein air deflector channels are respectively arranged between the topmost air deflector body and the volute tongue guide wall, between adjacent air deflector bodies in the middle and between the bottommost air deflector body and the volute throat guide wall;

the lengths of the air deflector bodies gradually decrease along the direction from the volute tongue guide wall to the volute throat guide wall.

Further, the widths of the plurality of air guide channels gradually increase along the direction from the volute tongue guide wall to the volute throat guide wall.

Further, the air deflector body is connected with a driving device, and the driving device is used for driving the air deflector body to rotate or translate.

Further, each air deflector main body is respectively connected with a driving device.

Further, each air deflector main body is driven to rotate by the driving device, and the rotating state of the air deflector main body comprises a refrigerating air supply state, a heating air supply state and a most smooth air supply state;

the included angle between the air deflector main body and the horizontal direction in the cold air making and supplying state is-20 degrees to 20 degrees, the included angle between the air deflector main body and the horizontal direction in the hot air making and supplying state is 70 degrees to 110 degrees, and the included angle between the air deflector main body and the horizontal direction in the most-smooth air supplying state is 25 degrees to 65 degrees.

Further, the air deflector body includes a horizontal section provided along an air supply direction thereof.

The invention also provides a method for regulating and controlling the air deflector of the wall-mounted machine, which comprises the following steps:

the driving device drives the air deflector main body to rotate or translate to adjust the width of the air guide channel, so that different air supply modes are switched, wherein the air supply modes comprise global air supply, far-field air supply, middle-field or near-field air supply and extremely near-field air supply.

The invention also provides a wall-mounted air conditioner, which comprises a machine body, wherein an air outlet is arranged on the machine body, the air outlet comprises a volute tongue guide wall and a volute throat guide wall, and a wall-mounted air deflector is arranged between the volute tongue guide wall and the volute throat guide wall.

Furthermore, connecting columns are arranged on two sides of the air deflector main body, and at least one connecting column is connected with the driving device.

Further, the connection posts on the top-most air deflector body are arranged at the tail ends of the two sides of the air deflector body, and the middle air deflector body and the connection posts on the bottom-most air deflector body are arranged at the middle positions of the two sides of the air deflector body.

Further, the length of the topmost air deflector main body is not greater than the height of the front end of the machine body.

Further, the length of the topmost air deflector main body is equal to the height of the front end of the machine body, and the contour shape of the front end of the machine body is the same as the surface contour shape of the topmost air deflector main body.

According to the wall-mounted air deflector, the regulating and controlling method thereof and the wall-mounted air conditioner, the air conditioner air outlet is provided with the multi-layer air deflector bodies, the lengths of the air deflector bodies of each layer are different, the intervals of the air deflector channels of each layer are different, and the air outlet wind speed can be layered, the air pressure is redistributed, so that the air flow blown out from the same air outlet falls in different distances of a room, the whole room can be quickly covered by the air flow, people are not blown directly, and the dual promotion of comfort and energy conservation is realized.

The multi-layer air deflector main body can adjust the distance in the moving process, so that the air flow pressurization and depressurization of the air outlet or the superposition of the air deflectors can be realized, and the far-field air supply, near-field air supply and heating air quantity besides global air supply can be realized without attenuation and the rapid landing can be realized. The beneficial effects are as follows:

(1) the air flow coverage range can be adjusted, and the air flow blown by the air conditioner can be used for covering the room in a large range;

(2) the shower type refrigeration of indirect people blowing can be realized, and the comfort is good;

(3) the air flow is covered and circulated rapidly, so that energy and electricity can be saved;

(3) the hot air can be quickly landed, and the attenuation of the heating air quantity is avoided.

Drawings

Fig. 1 is a schematic view of a size of a wind-guiding plate of a wall-mounted device according to embodiment 1 of the present invention;

fig. 2 is a side view of a global air supply state of a wall-mounted air deflector provided in embodiment 3 of the present invention;

fig. 3 is a side view of a far-field air supply state of a wall-mounted air deflector provided in embodiment 4 of the present invention;

fig. 4 is a side view of a middle-field or near-field air supply state of a wall-mounted air deflector provided in embodiment 5 of the present invention;

fig. 5 is a side view of a near-field air supply state of a wall-mounted air deflector provided in embodiment 6 of the present invention;

fig. 6 is a side view showing a closed state of a wall-mounted air conditioner according to embodiment 7 of the present invention.

In the figure:

1. a first air supply plate main body; 2. a second air supply plate main body; 3. volute tongue guide wall; 4. a volute throat guide wall.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Example 1

As shown in fig. 1, a wall-mounted air deflector comprises at least two air deflector bodies arranged between a volute tongue guide wall 3 and a volute throat guide wall 4, wherein air deflector channels are arranged between the topmost air deflector body and the volute tongue guide wall 3, between adjacent air deflector bodies in the middle and between the bottommost air deflector body and the volute throat guide wall 4;

the lengths of the air deflector bodies gradually decrease along the direction from the volute tongue guide wall 3 to the volute throat guide wall 4, the widths of the air deflector channels gradually increase along the direction from the volute tongue guide wall 3 to the volute throat guide wall 4, and the air deflector bodies are connected with a driving device which is used for driving the air deflector bodies to rotate or translate.

The width of the air guide channel is the vertical distance between the volute tongue guide wall 3 and the adjacent air guide plate main bodies, between the adjacent two air guide plate main bodies and between the volute throat guide wall 4 and the adjacent air guide plate main bodies.

Taking two air guide plate bodies as an example, as shown in fig. 1, the two air guide plate bodies are a first air guide plate body 1 and a second air guide plate body 2 respectively, the length of the first air guide plate body 1 is L1, the length of the second air guide plate body 2 is L2, wherein L1> L2, the width between the first air guide plate body 1 and the volute tongue guide wall 3 is W1, the width between the first air guide plate body 1 and the second air guide plate body 2 is W2, and the width between the second air guide plate body 2 and the volute throat guide wall 4 is W3, wherein W1< W2< W3.

Each air deflector main body is respectively connected with a driving device. Each air deflector main body is driven to rotate by the driving device, the rotating state of the air deflector main body comprises a refrigerating and air supplying state, and all air deflector main bodies in the refrigerating and air supplying state are close to a horizontal state, and the included angle between each air deflector main body and the horizontal direction is within the range of-20 degrees to 20 degrees; the top air deflector main body is nearly vertical in the heating and air supplying state, and the rest air deflector main bodies and the volute tongue guide wall are matched and transited, so that the air flow is ensured to be blown off towards the ground without damage, and the included angle between the air deflector main body and the horizontal direction is 70-110 degrees; in the most forward air supply state, all air deflector bodies are tangent to the air flow angle, namely, the included angle with the horizontal direction is about 45 degrees downwards, and preferably, the included angle with the horizontal direction is 25 degrees to 65 degrees. The air deflector main body is rotated or translated to reduce the width distance, so that the air supply states of various air deflector main bodies are switched, and preferably, each air deflector main body is connected with a driving device and is driven independently when required to be driven, so that the air deflector is higher in flexibility and accuracy.

Preferably, the air deflector main body comprises a horizontal section and an upward-lifting section along the air supply direction, the upward-lifting section is arranged at the front end of the air deflector main body, the length of the upward-lifting section is smaller than that of the horizontal section, and an included angle between the upward-lifting section and the horizontal section is an obtuse angle.

When the air outlet distance is large, the wall-mounted air deflector can be arranged on two or more layers of air deflector bodies under the condition of not causing air quantity attenuation, namely at least two air deflector bodies are arranged, and the two air deflector bodies are arranged in the following embodiments.

Example 2

A method for regulating and controlling an air deflector of a wall-mounted machine comprises the following steps:

the driving device drives the air deflector main body to rotate or translate to adjust the width of the air guide channel, so that different air supply modes are switched, wherein the air supply modes comprise global air supply, far-field air supply, middle-field or near-field air supply and extremely near-field air supply.

The overall air supply mode is to supply air to the whole space, the width of the plurality of air guide channels gradually increases along the direction from the volute tongue guide wall 3 to the volute throat guide wall 4, and the air supply direction of the air guide channels tends to be horizontal;

the far-field air supply mode is to supply air to a position far away from an air outlet in a space, the outer end part of the air deflector main body is lifted, the distance between the inner end part of the air deflector main body and the volute tongue guide wall 3 is increased, the outer end part of the topmost air deflector main body is lifted, the distance between the outer end part of the rest air deflector main bodies and the air deflector main body above the rest air deflector main bodies adjacent to the topmost air deflector main body is reduced, and the distance between the inner end part of the bottommost air deflector main body and the volute tongue guide wall 4 is reduced;

the middle-field or near-field air supply mode is to supply air to a position in space, which is relatively middle or nearer to an air outlet, the outer end part of the air deflector main body is pressed downwards, the distance between the inner end part of the air deflector main body and the volute tongue guide wall 3 is reduced, the outer end part of the topmost air deflector main body is pressed downwards, the distance between the outer end parts of the rest air deflector main bodies and the adjacent upper air deflector main bodies is increased, and the distance between the inner end part of the bottommost air deflector main body and the volute tongue guide wall 4 is increased;

the extremely near field air supply mode is to supply air to the lower part of an air outlet in a space, the outer end part of the air deflector main body is pressed down to enable the inner end part of the air deflector main body to be attached to the volute tongue guide wall 3, the outer end part of the air deflector main body is sequentially attached to the air deflector main body above the air deflector main body adjacent to the air deflector main body, air flow is sent out through a gap between the bottommost air deflector main body and the volute tongue guide wall 4, and the air flow is sequentially transited by each air deflector main body and is sent to the extremely near field to rapidly fall to the ground.

Example 3

As shown in fig. 2, due to the air supply characteristic of the through-flow fan blade, the wind speed of the air outlet near the volute tongue is higher, the first air deflector main body 1 mainly guides the air in a high-wind speed area, the first air deflector main body 1 is longest, the space between the high-speed areas is smaller, and the air speed can be further increased in a supercharging process, so that the air flow is sent to the extremely long-distance upper air and falls freely; the distance between the first air deflector main body 1 and the second air deflector main body 2 is larger, the diffusion process is adopted, and the length of the second air deflector main body 2 is shorter, so that the air flow in the middle wind speed area of the air outlet is sent to the upper air of the middle field area and falls freely; the distance between the second air deflector main body 2 and the volute throat guide wall 4 is further increased, diffusion is further carried out, and the end part of the volute throat guide wall 4 is shorter than the end part of the outer side of the second air deflector main body 2, so that air flow in a slow speed area of an air outlet is sent to the upper air of a near field area and falls freely. Therefore, when refrigeration is realized, the whole area above the room is provided with free falling cold air, the rapid cooling of the room is realized, and direct people blowing is avoided, so that energy saving is realized and comfortableness is improved.

Example 4

As shown in fig. 3, when the human body movement area in the room is far from the air conditioner, the first air deflector body 1 and the second air deflector body 2 are rotated to the outside end parts thereof to be raised, so that the distance between the inside end parts of the first air deflector body 1 and the second air deflector body 2 and the volute tongue guide wall 3 is increased, the outside end parts of the first air deflector body 1 are raised, the distance between the outside end parts of the second air deflector body 2 and the first air deflector body 1 is reduced, the distance between the inside end parts of the second air deflector body 2 and the volute tongue guide wall 4 is reduced, so that most of the air flows pass through the upper sides of the first air deflector body 1 and the second air deflector body 2 to be raised when the air flows guided by the first air deflector body 1 pass through the outside end parts thereof, the air flows in the middle channels of the first air deflector body 1 and the second air deflector body 2 are raised, the air flows in a pressurizing process are accelerated, the middle medium speed air flows are accelerated, and are clung to the lower side of the first air deflector body 1 by using the coanda effect, and the air flows blown by the first air deflector body 1 are lifted, and the air supply distance is further increased.

Example 5

As shown in fig. 4, when the room body movement area is close to the air conditioner, the first air deflector body 1 and the second air deflector body 2 are rotated until the outer ends of the first air deflector body 1 and the second air deflector body 2 are pressed down, so that the distance between the inner ends of the first air deflector body 1 and the second air deflector body 2 and the volute tongue guide wall 3 is reduced, the distance between the outer ends of the first air deflector body 1 and the second air deflector body 2 is increased, the distance between the inner ends of the second air deflector body 2 and the volute tongue guide wall 4 is increased, most of air flows are guided through the lower sides of the first air deflector body 1 and the second air deflector body 2, and the air flows passing through channels between the first air deflector body 1 and the second air deflector body 2 and between the second air deflector body 2 and the volute tongue guide wall 4 are reduced, so that the middle air flows are decelerated, and the middle field and near field air supply are realized through the downward pressing of the outer ends of the first air deflector body 1 and the second air deflector body 2.

Example 6

As shown in FIG. 5, in the heating state, the air flow needs to fall to the ground quickly and rise after the ground is extended, so that the coldest parts such as the limbs of the human body can be heated up quickly. The first air deflector main body 1 and the second air deflector main body 2 can be rotationally attached to the volute tongue guide wall 3 at the inner side end part during heating, the outer side end part of the second air deflector main body 2 is attached to the lower side of the first air deflector main body 1, so that hot air flows are transited to the first air deflector main body 1 through the second air deflector main body 2, the fast landing is performed through the ultra-long air supply distance and the extreme pressing angle of the first air deflector main body 1, and the attenuation caused by the pressing guiding of the hot air flows is reduced to the minimum because of the transition between the first air deflector main body 1 and the volute tongue guide wall 3 of the second air deflector main body 2.

Example 7

As shown in fig. 6, a wall-mounted air conditioner comprises a machine body, wherein an air outlet is arranged on the machine body, the air outlet comprises a volute tongue guide wall 3 and a volute throat guide wall 4, and a wall-mounted air deflector in embodiments 1-5 is arranged between the volute tongue guide wall 3 and the volute throat guide wall 4.

The air deflector comprises an air deflector body, at least one connecting column, a driving device, a middle air deflector body and a bottom air deflector body, wherein the two sides of the air deflector body are respectively provided with the connecting columns, at least one connecting column is connected with the driving device, the connecting columns on the top air deflector body are arranged at the tail ends of the two sides of the air deflector body, and the middle air deflector body and the connecting columns on the bottom air deflector body are arranged at the middle positions of the two sides of the air deflector body.

The air deflector main body adopts a rotary driving mode, the driving device adopts a driving motor, the driving motor drives the air deflector to rotate, and the rotary driving mode is adopted to drive the travel to be smaller, so that the operation is simple and convenient.

The length of the top air deflector main body is not greater than the height of the front end of the machine body. Preferably, the length of the top-most air deflector body is equal to the height of the front end of the machine body, and the contour shape of the front end of the machine body is the same as the surface contour shape of the top-most air deflector body.

Taking two air deflector bodies as an example, the first air deflector body 1 can be rotated to be attached to the front air inlet of the hanging machine to form a panel, and the second air deflector body 2 can be rotated to be attached to the air outlet to realize the closing of the air outlet. When the first air deflector main body 1 is rotated to be opened, the front air inlet of the air conditioner can be opened, the air inlet area is increased, and the energy efficiency is improved.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (7)

1. The wall-mounted air conditioner comprises a machine body, wherein an air outlet is arranged on the machine body, the air outlet comprises a volute tongue guide wall (3) and a volute throat guide wall (4), a wall-mounted air deflector is arranged between the volute tongue guide wall (3) and the volute throat guide wall (4), and is characterized in that,

the wall-mounted air deflector comprises at least two air deflector bodies arranged between a volute tongue guide wall and a volute throat guide wall, wherein air guide channels are arranged between the topmost air deflector body and the volute tongue guide wall (3), between adjacent air deflector bodies in the middle and between the bottommost air deflector body and the volute throat guide wall (4);

the lengths of the air deflector bodies gradually decrease along the direction from the volute tongue guide wall (3) to the volute throat guide wall (4);

the air deflector main body comprises a horizontal section and an upward-lifting section along the air supply direction of the air deflector main body, the upward-lifting section is arranged at the front end of the air deflector main body, the length of the upward-lifting section is smaller than that of the horizontal section, and an included angle between the upward-lifting section and the horizontal section is an obtuse angle;

the length of the topmost air deflector main body is not more than the height of the front end of the machine body;

the length of the topmost air deflector main body is equal to the height of the front end of the machine body, and the contour shape of the front end of the machine body is the same as the surface contour shape of the topmost air deflector main body.

2. The wall-mounted air conditioner according to claim 1, wherein the air deflector body is connected with a driving device for driving the air deflector body to rotate or translate.

3. A wall-mounted air conditioner according to claim 2, wherein each of the air guide plate bodies is connected with a driving device.

4. A wall-mounted air conditioner according to claim 3, wherein each of the air deflector bodies is rotated by the driving means, and the rotation state of the air deflector body includes a cooling air supply state, a heating air supply state and a most-smooth air supply state;

the included angle between the air deflector main body and the horizontal direction in the refrigerating air supply state is-20 degrees to 20 degrees, the included angle between the air deflector main body and the horizontal direction in the heating air supply state is 70 degrees to 110 degrees, and the included angle between the air deflector main body and the horizontal direction in the most-smooth air supply state is 25 degrees to 65 degrees.

5. The wall-mounted air conditioner according to claim 2, wherein the air deflector body is provided with connection posts on both sides thereof, and at least one of the connection posts is connected to the driving device.

6. The wall-mounted air conditioner according to claim 5, wherein the connecting posts on the topmost air deflector body are arranged at the tail ends of the two sides of the air deflector body, and the connecting posts on the middle air deflector body and the bottommost air deflector body are arranged at the middle positions of the two sides of the air deflector body.

7. A method for adjusting and controlling an air deflector of a wall-mounted machine, which is applied to the wall-mounted air conditioner as claimed in any one of claims 1 to 6, and is characterized by comprising the following steps:

the driving device drives the air deflector main body to rotate or translate to adjust the width of the air guide channel, so that different air supply modes are switched, wherein the air supply modes comprise global air supply, far-field air supply, middle-field or near-field air supply and extremely near-field air supply.