CN219177824U - Air conditioner hanging machine - Google Patents

Abstract

The utility model discloses an air conditioner hanging machine, and relates to the technical field of air conditioners. The air conditioner hanging machine comprises a middle frame, a mounting frame, a partition plate, a first guide plate and a second guide plate. The middle frame is provided with the air outlet and the air-out space with the air outlet intercommunication, and the baffle is connected with the middle frame, and sets up in the air-out space to separate into first space and second space with the air-out space, the baffle is used for leading in first space and second space simultaneously with the air-out air current that blows out from the spiral case wind channel, and makes it outwards blow out through the air outlet, and the mounting bracket is connected with the middle frame, and first guide plate and second guide plate are all rotatably installed on the mounting bracket, and first guide plate sets up in first space, and the second guide plate sets up in the second space. The air conditioner hanging machine provided by the utility model can realize accurate air guiding, ensure the accuracy of the air outlet direction, improve the air guiding effect and meet the requirements of users.

Description

Air conditioner hanging machine

Technical Field

The utility model relates to the technical field of air conditioners, in particular to an air conditioner hanging machine.

Background

At present, with the increasing living standard, the requirements of people on the functionality of the air conditioner are also higher. The air-out mode of present air conditioner is single, can only simply realize heating or refrigeration function, can't satisfy user's special demand (for example demarcation direction accurate air-out), and the wind-guiding precision is lower, and the wind-guiding effect is relatively poor, and user experience is relatively poor.

Disclosure of Invention

The utility model solves the problem of how to realize accurate air guiding, ensure the accuracy of the air outlet direction, improve the air guiding effect and meet the demands of users.

In order to solve the problems, the technical scheme of the utility model is realized as follows:

the utility model provides an air conditioner hanging machine which comprises a middle frame, a mounting frame, a partition plate, a first guide plate and a second guide plate, wherein the middle frame is provided with an air outlet and an air outlet space communicated with the air outlet, the partition plate is connected with the middle frame and arranged in the air outlet space to divide the air outlet space into a first space and a second space, the partition plate is used for simultaneously guiding air outlet air flow blown out from a volute air duct into the first space and the second space and enabling the air outlet air flow to be blown out through the air outlet, the mounting frame is connected with the middle frame, the first guide plate and the second guide plate are rotatably arranged on the mounting frame, the first guide plate is arranged in the first space and used for guiding the air outlet air flow in the first space, the second guide plate is arranged in the second space and used for guiding the air outlet air flow in the second space. Compared with the prior art, the air conditioner hanging machine provided by the utility model has the advantages that the partition plate arranged in the air outlet space, and the first guide plate and the second guide plate respectively arranged in the first space and the second space are adopted, so that accurate air guiding can be realized, the accuracy of the air outlet direction is ensured, the air guiding effect is improved, and the user requirement is met.

Further, the baffle sets up in the one side that the air-out space was kept away from the air outlet. So as to improve the effect of separating the air flow and further ensure the air guiding effect of the first guide plate and the second guide plate.

Further, the partition plate is densely provided with a plurality of ventilation micropores, and the ventilation micropores are used for enabling the air-out airflow to pass through. In order to guarantee the atmospheric pressure in first space and the second space balanced to guarantee the homogeneity of air-out air current in first space and the second space, promote user's comfort level.

Further, the first guide plate is provided with a first rotation axis, the second guide plate is provided with a second rotation axis, and the first rotation axis and the second rotation axis are arranged at intervals in parallel. So that the wind guiding actions of the first guide plate and the second guide plate complement each other, the wind guiding effect is further enhanced, and the user experience is improved.

Further, the baffle is dull and stereotyped form, and the length direction of baffle is the same with the extending direction of first axis of rotation and second axis of rotation, and the width direction of baffle is the same with the air-out direction of air-out air current. The baffle that is dull and stereotyped form setting can be high-efficient with the air-out air current leading-in first space and second space respectively to because the width direction of baffle is the same with the air-out direction of air-out air current, so the baffle only plays the separation effect to the air-out air current, and can not produce the wind-guiding effect to the air-out air current, can not produce the influence to the air-out direction of air-out air current promptly.

Further, a preset included angle is formed between the connecting line direction of the first rotating axis and the second rotating axis and the air outlet direction of the air outlet flow, and the range of the preset included angle is 50-70 degrees. The reasonable included angle that presets can reduce the rotation angle of first guide plate and second guide plate as far as possible when guaranteeing the wind guiding effect of first guide plate and second guide plate, noise reduction, the energy saving.

Further, the preset included angle is 56 degrees.

Further, the air conditioner hanging machine further comprises a front panel, the front panel is arranged on the outer side of the middle frame, an air flow channel is formed between the front panel and the middle frame, the air flow channel is communicated with the first space, and the first guide plate is used for guiding air outlet air flow into the air flow channel. The front panel is used for shielding the middle frame so as to improve the attractiveness of the whole air conditioner hanging machine.

Further, the front panel is densely provided with a plurality of first micropores, and first micropores are communicated with the air flow channel, and the first micropores are used for supplying air-out air flow to blow out. The air-out air flow in the air flow channel can flow out through a plurality of first micropores simultaneously, and because the diameter of the first micropores is smaller, the air quantity and the air speed of the air-out air flow flowing out from the first micropores are extremely low, and the air-out air flow slowly flows out from the first micropores on the front panel, so that the zero wind sense air-out function of the air conditioner hanging machine is realized.

Further, the first guide plate is densely provided with a plurality of second micropores, the second guide plate is densely provided with a plurality of third micropores, and both the second micropores and the third micropores are used for supplying the air outlet flow to blow out. The air-out air flow can flow out through a plurality of second micropores and a plurality of third micropores simultaneously, and because the diameters of the second micropores and the third micropores are smaller, the air quantity and the air speed of the air-out air flow flowing out from the second micropores and the third micropores are extremely low, and the air-out air flow slowly flows out from the second micropores on the first guide plate and the third micropores on the second guide plate, so that the zero wind sensing air-out function of the air conditioner hanging machine is realized, and the heat exchange effect during zero wind sensing air-out is ensured.

Drawings

FIG. 1 is an isometric view of an air conditioner hanging machine according to an embodiment of the present utility model;

fig. 2 is a cross-sectional view of an air conditioner hanging unit according to an embodiment of the present utility model;

FIG. 3 is a mathematical model diagram of an air conditioner hanging machine according to an embodiment of the utility model;

fig. 4 is a schematic structural diagram of an air conditioner hanging machine in a zero wind sense mode according to an embodiment of the present utility model;

fig. 5 is a schematic structural diagram of an air conditioner hanging machine in an enhanced heating mode according to an embodiment of the present utility model;

fig. 6 is a schematic structural diagram of an air conditioner hanging machine in a normal heating mode according to an embodiment of the present utility model;

FIG. 7 is a schematic view of an air conditioner hanging machine in a cooling mode according to an embodiment of the present utility model;

FIG. 8 is a schematic view of an air conditioner hanging machine in a constant temperature mode according to an embodiment of the present utility model;

fig. 9 is a schematic structural diagram of an air conditioner hanging unit in a dual-zone air supply mode according to an embodiment of the present utility model.

Reference numerals illustrate:

100-hanging an air conditioner; 110-middle frame; 111-an air outlet; 112-air outlet space; 113-a first space; 114-a second space; 120-front panel; 121-a first microwell; 130-mounting frame; 140-a separator; 141-ventilation microwells; 150-a first deflector; 151-second microwells; 160-a second baffle; 161-third microwells; 170-a first drive motor; 180-a second drive motor; 190-air flow channel; 200-volute air channels; 210-cross flow fans.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Referring to fig. 1 to 3, an air conditioner hanging unit 100 is provided for controlling indoor air temperature. The air guide device can realize accurate air guide, ensure the accuracy of the air outlet direction, improve the air guide effect and meet the requirements of users.

It should be noted that, the air conditioner hanging machine 100 is hung on an indoor wall, and the air conditioner hanging machine 100 is used for blowing hot air or cold air into the indoor space to realize a heating or cooling function, thereby regulating and controlling the indoor air temperature and meeting the user requirements.

The air conditioner hanging unit 100 includes a middle frame 110, a front panel 120, a mounting frame 130, a partition 140, a first baffle 150, a second baffle 160, a first driving motor 170, and a second driving motor 180. The middle frame 110 is provided with an air outlet 111 and an air outlet space 112 communicated with the air outlet 111, the air outlet 111 is arranged at the outer side of the air outlet space 112, and the air outlet 111 is used for discharging air outlet air in the air outlet space 112 to the outside. The air outlet space 112 is used for communicating with the volute air duct 200, and the cross flow fan 210 installed in the volute air duct 200 can generate negative pressure to drive the air outlet flow to flow into the air outlet space 112 through the volute air duct 200, so as to blow into a room through the air outlet 111. The partition 140 is connected to the middle frame 110 and disposed in the air outlet space 112 to divide the air outlet space 112 into a first space 113 and a second space 114, the partition 140 is configured to guide the air outlet flow blown out from the volute air duct 200 into the first space 113 and the second space 114 at the same time, and blow the air outlet flow outwards through the air outlet 111, and the first space 113 and the second space 114 are both configured to allow the air outlet flow to flow therethrough. The mounting bracket 130 is connected with the center 110, and first guide plate 150 and second guide plate 160 are all rotationally installed on mounting bracket 130, and baffle 140 can not produce the interference to the rotation of first guide plate 150 and second guide plate 160, and mounting bracket 130 can bear first guide plate 150 and second guide plate 160, and first guide plate 150 and second guide plate 160 can rotate for mounting bracket 130 to realize the wind-guiding function to the air-out air current. Specifically, the first baffle 150 is disposed in the first space 113, the first baffle 150 is configured to guide the air-out flow in the first space 113, the second baffle 160 is disposed in the second space 114, and the second baffle 160 is configured to guide the air-out flow in the second space 114. In this way, since the air-out flow blown out from the volute air duct 200 is divided into two parts (one part flows into the first space 113 and the other part flows into the second space 114), and the first guide plate 150 and the second guide plate 160 can guide the air-out flow in the first space 113 and the second space 114 independently, the flow rate of air guided by each guide plate is reduced, the air guiding accuracy is improved, the accuracy of the air-out direction is ensured, the air guiding effect is improved, and the air guiding device is practical and reliable. In addition, since the first guide plate 150 and the second guide plate 160 can both guide air and do not interfere with each other, the air conditioner hanging machine 100 can be enabled to discharge air from different directions, diversity of air discharge is achieved, and different requirements of users can be met.

The front panel 120 is mounted on the outer side of the middle frame 110, and the front panel 120 is used for shielding the middle frame 110 to improve the aesthetic appearance of the whole air conditioner 100. An air flow channel 190 is formed between the front panel 120 and the middle frame 110, the air flow channel 190 is communicated with the first space 113, the first deflector 150 is used for guiding the air outlet air flow into the air flow channel 190, and the air flow channel 190 is used for allowing the air outlet air flow to flow in.

Further, the front panel 120 is densely provided with a plurality of first micro holes 121, the first micro holes 121 are communicated with the air flow channel 190, and the first micro holes 121 are used for supplying the air-out air flow to be blown out. The air-out air flow in the air flow channel 190 can flow out through the plurality of first micropores 121 simultaneously, and because the diameters of the first micropores 121 are smaller, the air-out air flow volume and the air speed of the air-out air flow flowing out from the first micropores 121 are extremely low, and the air-out air flow slowly flows out from the first micropores 121 on the front panel 120, so that the zero wind sense air-out function of the air-conditioning hanging machine 100 is realized.

In this embodiment, the first driving motor 170 and the second driving motor 180 are both installed on the middle frame 110, the first driving motor 170 is in transmission connection with the first baffle 150, the first driving motor 170 is used for driving the first baffle 150 to rotate, the second driving motor 180 is in transmission connection with the second baffle 160, and the second driving motor 180 is used for driving the second baffle 160 to rotate. Specifically, the first driving motor 170 and the second driving motor 180 independently operate, that is, the motion of the first baffle 150 and the motion of the second baffle 160 do not interfere with each other, and the user may operate only the first baffle 150 without operating the second baffle 160, or may operate only the second baffle 160 without operating the first baffle 150, so as to further improve the accuracy of the air outlet of the air conditioner hanging machine 100.

In this embodiment, the partition plate 140 is disposed at a side of the air outlet space 112 away from the air outlet 111, that is, the partition plate 140 is disposed at a side of the air outlet space 112 close to the volute air duct 200, the air outlet airflow blown out from the volute air duct 200 is separated by the partition plate 140 when just entering the air outlet space 112, a part of the air outlet airflow flows into the first space 113, and another part of the air outlet airflow flows into the second space 114, so as to improve the effect of separating the airflows, thereby ensuring the air guiding effect of the first air guide plate 150 and the second air guide plate 160.

In this embodiment, the partition 140 is densely provided with a plurality of ventilation micropores 141, the ventilation micropores 141 are used for allowing the air-out airflow to pass through, that is, the air-out airflow in the first space 113 can overflow to the second space 114 through the ventilation micropores 141, and the air-out airflow in the second space 114 can overflow to the first space 113 through the ventilation micropores 141, so as to ensure the air pressure balance in the first space 113 and the second space 114, thereby ensuring the uniformity of the air-out airflow in the first space 113 and the second space 114, and improving the comfort level of users.

It is noted that, the first baffle 150 has a first rotation axis, the first baffle 150 can rotate around the first rotation axis, the second baffle 160 has a second rotation axis, the second baffle 160 can rotate around the second rotation axis, and the first rotation axis and the second rotation axis are arranged at parallel intervals, so that the wind guiding actions of the first baffle 150 and the second baffle 160 complement each other, further enhancing the wind guiding effect and improving the user experience.

In this embodiment, the partition 140 is flat, and the length direction of the partition 140 is the same as the extending direction of the first rotation axis and the second rotation axis, and the width direction of the partition 140 is the same as the air outlet direction of the air outlet flow. Specifically, the first space 113 and the second space 114 are both elongated, and the partition plate 140 disposed in a flat plate shape can efficiently guide the air-out airflow into the first space 113 and the second space 114, respectively, and since the width direction of the partition plate 140 is the same as the air-out direction of the air-out airflow, the partition plate 140 only plays a role in separating the air-out airflow, but does not exert an air guiding effect on the air-out airflow, i.e. does not exert an influence on the air-out direction of the air-out airflow.

It should be noted that, a preset included angle is formed between the connection line direction of the first rotation axis and the second rotation axis and the air outlet direction of the air outlet flow, the range of the preset included angle is 50 degrees to 70 degrees, and the reasonable preset included angle can ensure the air guiding effect of the first guide plate 150 and the second guide plate 160 and simultaneously reduce the rotation angle of the first guide plate 150 and the second guide plate 160 as much as possible, thereby reducing noise and saving energy. For ease of understanding, the preset angle is denoted as a.

In this embodiment, the preset included angle is 56 degrees, but not limited thereto, and in other embodiments, the preset included angle may be 50 degrees or 70 degrees, and the size of the preset included angle is not specifically limited.

In this embodiment, the first baffle 150 is densely provided with a plurality of second micropores 151, the second baffle 160 is densely provided with a plurality of third micropores 161, and both the second micropores 151 and the third micropores 161 are used for blowing out the air flow. When the air conditioner hanging machine 100 is in the zero wind sensing air outlet state, the air outlet air flow can flow out through the second micropores 151 and the third micropores 161, and the diameters of the second micropores 151 and the third micropores 161 are smaller, so that the air outlet air flow volume and the air speed flowing out of the second micropores 151 and the third micropores 161 are extremely low, and the air outlet air flow slowly flows out of the second micropores 151 on the first guide plate 150 and the third micropores 161 on the second guide plate 160, so that the zero wind sensing air outlet function of the air conditioner hanging machine 100 is realized, and the heat exchange effect during zero wind sensing air outlet is ensured.

Further, the cross sections of the first guide plate 150 and the second guide plate 160 are all arc-shaped, the wind resistance of the first guide plate 150 and the second guide plate 160 which are arc-shaped is small, a good wind guiding effect is achieved, and wind guiding can be conducted on both the inner concave surface and the outer convex surface of the arc-shaped plate, so that the diversity of the air outlet of the air conditioner hanging machine 100 is further improved.

Referring to fig. 4 to 9 (the line arrows in fig. 4 to 9 indicate the air flowing direction), it is noted that the air conditioner 100 has six modes, namely, a zero air induction mode, an enhanced heating mode, a normal heating mode, a cooling mode, a constant temperature mode and a dual-zone air supply mode. The air output and the air output speed of the zero-wind-sensation mode are extremely low, the user basically cannot feel the direct blowing of the air output airflow, the comfort level is high, the mode can be used for heating and refrigerating, and the zero-wind-sensation mode is suitable for sleeping or office scenes of the user; the air output and the air output speed of the enhanced heating mode are high, the air output flow is blown out to the ground along the vertical downward direction and then is diffused from the ground to the periphery and the upper side, so that the heating function is rapidly realized, and the enhanced heating device is suitable for the scene with extremely low indoor temperature and high necessity of heating; the air output and the air output speed of the common heating mode are both high, the air output flow is blown out obliquely downwards along the first direction, and the heat is continuously diffused downwards, so that the heating and maintaining functions are realized, and the heating and maintaining device is suitable for scenes which need to be maintained after the indoor temperature is increased to a certain degree; the air output and the air output speed of the refrigeration mode are both high, the air output flow is blown out obliquely downwards along the second direction, and the cold energy is continuously diffused downwards, so that the refrigeration maintaining function is realized, and the refrigeration device is suitable for a scene which needs to be maintained after the indoor temperature is reduced to a certain degree; the air outlet quantity and the air outlet speed of the constant temperature mode are low, the air outlet airflow is blown out obliquely downwards along the third direction, and the mode can be used for heating and refrigerating, and is suitable for a scene which needs to be kept after the indoor temperature completely meets the requirements of users; the air outlet quantity and the air outlet speed of the double-zone air supply mode can be adjusted according to the requirements of users, and the air outlet flow is blown outwards along two different directions.

Specifically, a first included angle is formed between the first direction and the horizontal direction, a second included angle is formed between the second direction and the horizontal direction, a third included angle is formed between the third direction and the horizontal direction, the first included angle is larger than the third included angle, the third included angle is larger than the second included angle, namely the air-out airflow blown out by the ordinary heating mode is lower than the air-out airflow blown out by the constant temperature mode, and the air-out airflow blown out by the constant temperature mode is lower than the air-out airflow blown out by the refrigerating mode. For ease of understanding, the first angle is denoted as a, the second angle is denoted as b, and the third angle is denoted as c.

When the air conditioner hanging machine 100 is in the zero wind sensing mode, the first guide plate 150 and the second guide plate 160 rotate to the middle position, and at this time, the inner concave surfaces of the first guide plate 150 and the second guide plate 160 are opposite to the volute air duct 200, so as to play a role in the air-taking, and guide the air-out airflow towards the direction close to the airflow channel 190. Specifically, when the air-out airflow blown out from the volute air duct 200 blows to the concave surfaces of the first baffle 150 and the second baffle 160, a part of the air-out airflow directly flows out through the second micropores 151 formed in the first baffle 150 and the third micropores 161 formed in the second baffle 160, so as to realize zero-wind-sensation air-out at the positions of the areas of the first baffle 150 and the second baffle 160, and another part of the air-out airflow flows into the airflow channel 190 under the guiding action of the concave surfaces of the first baffle 150 and the second baffle 160, and flows out through the first micropores 121 formed in the front panel 120, so as to realize zero-wind-sensation air-out at the positions of the areas of the front panel 120. Therefore, the air quantity of the zero-wind-sense air outlet can be effectively improved, and the heat exchange effect is ensured.

When the air conditioner hanging machine 100 is in the enhanced heating mode, the first deflector 150 and the second deflector 160 are both rotated to the left limit position, at this time, the outer convex surface of the first deflector 150 is opposite to the air flow channel 190 to block the air flow channel 190, so as to prevent the air-out airflow from flowing in the air flow channel 190, and the outer convex surface of the second deflector 160 is opposite to the first deflector 150, so as to avoid the air-out airflow from being guided to the area where the first deflector 150 is located. Specifically, a part of the air-out flow blown out from the volute air duct 200 flows in a vertically downward direction after being bent along the inner concave surface of the first baffle 150, and another part flows in a vertically downward direction after being bent along the inner concave surface of the second baffle 160, in this process, there may be a slight air-out flow passing through the second micro-holes 151 formed in the first baffle 150 and the third micro-holes 161 formed in the second baffle 160, but since the air-out direction is different from the opening directions of the second micro-holes 151 and the third micro-holes 161, these air-out flows may be ignored. In this way, the first guide plate 150 and the second guide plate 160 play a role in guiding wind at the same time, so that the air flow of the air outlet is ensured to flow vertically downwards, the wind guiding accuracy is improved, and the wind guiding effect is enhanced.

When the air conditioner hanging machine 100 is in the normal heating mode, the first deflector 150 and the second deflector 160 are both rotated to the right limit position, at this time, the inner concave surface of the first deflector 150 is opposite to the air flow channel 190, the inner concave surface of the second deflector 160 is opposite to the first deflector 150, and the outer convex surface of the first deflector 150 and the inner concave surface of the second deflector 160 are both used for guiding the air-out airflow. Specifically, the air-out flow blown out from the scroll duct 200 flows between the outer convex surface of the first baffle 150 and the inner concave surface of the second baffle 160, and the outer convex surface of the first baffle 150 and the inner concave surface of the second baffle 160 cooperate to make the air-out flow obliquely downward in the first direction, in which process, there may be a slight air-out flow passing through the second micro-holes 151 formed in the first baffle 150 and the third micro-holes 161 formed in the second baffle 160, but since the air-out direction is different from the opening directions of the second micro-holes 151 and the third micro-holes 161, these air-out flows may be ignored. In this way, the first guide plate 150 and the second guide plate 160 play a role in guiding wind at the same time, so that the air flow of the air outlet is ensured to flow obliquely downwards along the first direction, the wind guiding accuracy is improved, and the wind guiding effect is enhanced.

When the air conditioner hanging machine 100 is in the cooling mode, the first deflector 150 and the second deflector 160 are both rotated to a position between the middle position and the right limit position, and at this time, the inner concave surfaces of the first deflector 150 and the second deflector 160 are both disposed upward, and the inner concave surface of the first deflector 150, the outer convex surface of the first deflector 150, and the inner concave surface of the second deflector 160 are used for guiding the air-out airflow. Specifically, a part of the air-out flow blown out from the scroll duct 200 flows downward with inclination of the inner concave surface of the first baffle 150 in the second direction, and another part flows between the outer convex surface of the first baffle 150 and the inner concave surface of the second baffle 160, and the outer convex surface of the first baffle 150 and the inner concave surface of the second baffle 160 cooperate to make the air-out flow downward with inclination in the second direction, and in this process, there may be a slight air-out flow passing through the second micro-holes 151 formed in the first baffle 150 and the third micro-holes 161 formed in the second baffle 160, but since the air-out direction is different from the opening directions of the second micro-holes 151 and the third micro-holes 161, these air-out flows are negligible. In this way, the first guide plate 150 and the second guide plate 160 play a role in guiding wind at the same time, so that the air flow of the air outlet is ensured to flow obliquely downwards along the second direction, the wind guiding accuracy is improved, and the wind guiding effect is enhanced.

When the air conditioner hanging machine 100 is in the constant temperature mode, the first deflector 150 and the second deflector 160 are both rotated to a position between the middle position and the right limit position, and at this time, the inner concave surfaces of the first deflector 150 and the second deflector 160 are both disposed obliquely upward, and the inner concave surface of the first deflector 150, the outer convex surface of the first deflector 150 and the inner concave surface of the second deflector 160 are commonly used for guiding the air-out airflow. Specifically, a part of the air-out flow blown out from the scroll duct 200 flows downward with inclination of the inner concave surface of the first baffle 150 in the third direction, and another part flows between the outer convex surface of the first baffle 150 and the inner concave surface of the second baffle 160, and the outer convex surface of the first baffle 150 and the inner concave surface of the second baffle 160 cooperate to make the air-out flow downward with inclination in the third direction, and in this process, there may be a slight air-out flow passing through the second micro-holes 151 formed in the first baffle 150 and the third micro-holes 161 formed in the second baffle 160, but since the air-out direction is different from the opening directions of the second micro-holes 151 and the third micro-holes 161, these air-out flows are negligible. In this way, the first guide plate 150 and the second guide plate 160 play a role in guiding wind at the same time, so that the air-out airflow is ensured to flow obliquely downwards along the third direction, the wind guiding accuracy is improved, and the wind guiding effect is enhanced.

When the air conditioner hanging machine 100 is in the double-zone air supply mode, the first air guide plate 150 rotates to the right limit position, the second air guide plate 160 rotates to the left limit position, at this time, the outer convex surfaces of the first air guide plate 150 and the second air guide plate 160 are oppositely arranged, and the inner concave surface of the first air guide plate 150 and the outer convex surface of the second air guide plate 160 are commonly used for guiding the air outlet airflow. Specifically, a part of the air-out flow blown out from the scroll duct 200 flows along with the inner concave surface of the second baffle 160 in one direction, and another part flows between the outer convex surface of the first baffle 150 and the outer convex surface of the second baffle 160, and the outer convex surface of the first baffle 150 and the outer convex surface of the second baffle 160 cooperate to make the air-out flow in the other direction, and the two directions are completely different, in this process, some slight air-out flow may pass through the second micro-holes 151 formed on the first baffle 150 and the third micro-holes 161 formed on the second baffle 160, but since the air-out direction is different from the opening directions of the second micro-holes 151 and the third micro-holes 161, these air-out flows may be negligible. In this way, the first deflector 150 and the second deflector 160 play a role in guiding air at the same time, so that the air-out airflow can be blown out from two different directions at the same time, the air guiding accuracy is improved, and the air guiding effect is enhanced.

According to the air conditioner hanging machine 100 of the embodiment of the utility model, the middle frame 110 is provided with an air outlet 111 and an air outlet space 112 communicated with the air outlet 111, the partition plate 140 is connected with the middle frame 110 and is arranged in the air outlet space 112 to divide the air outlet space 112 into a first space 113 and a second space 114, the partition plate 140 is used for guiding the air outlet air flow blown out from the volute air duct 200 into the first space 113 and the second space 114 simultaneously and enabling the air outlet air flow to be blown out through the air outlet 111, the mounting frame 130 is connected with the middle frame 110, the first guide plate 150 and the second guide plate 160 are rotatably arranged on the mounting frame 130, the first guide plate 150 is arranged in the first space 113, the second guide plate 160 is arranged in the second space 114, and the second guide plate 160 is used for guiding the air outlet air flow in the second space 114. Compared with the prior art, the air conditioner hanging machine 100 provided by the utility model has the advantages that the partition plate 140 arranged in the air outlet space 112, and the first guide plate 150 and the second guide plate 160 respectively arranged in the first space 113 and the second space 114 are adopted, so that accurate air guiding can be realized, the accuracy of the air outlet direction is ensured, the air guiding effect is improved, and the user requirements are met.

Although the present utility model is disclosed above, the present utility model is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the utility model, and the scope of the utility model should be assessed accordingly to that of the appended claims.

Claims (10)

1. The utility model provides an air conditioner hanging machine, its characterized in that includes center (110), mounting bracket (130), baffle (140), first guide plate (150) and second guide plate (160), center (110) be provided with air outlet (111) and with air outlet space (112) of air outlet (111) intercommunication, baffle (140) with center (110) are connected, and set up in air outlet space (112) are in order to separate air outlet space (112) into first space (113) and second space (114), baffle (140) are used for leading simultaneously from the air outlet air current of spiral case wind channel (200) blowout first space (113) and second space (114) to make it outwards blow out through air outlet (111), mounting bracket (130) are connected with center (110), first guide plate (150) and second guide plate (160) are all rotationally installed in air outlet space (112), first guide plate (150) are arranged in first guide plate (114) are used for carrying out air outlet space (150), the second deflector (160) is used for guiding the air outlet flow in the second space (114).

2. The air conditioner hanging machine according to claim 1, wherein the partition plate (140) is disposed at a side of the air outlet space (112) away from the air outlet (111).

3. The air conditioner hanging machine according to claim 1, wherein the partition plate (140) is densely provided with a plurality of ventilation micropores (141), and the ventilation micropores (141) are used for passing the air outlet flow.

4. The air conditioner hanging machine according to claim 1, wherein the first deflector (150) has a first rotational axis, the second deflector (160) has a second rotational axis, and the first rotational axis is spaced apart from the second rotational axis in parallel.

5. The air conditioner hanging machine according to claim 4, wherein the partition plate (140) is in a flat plate shape, a length direction of the partition plate (140) is the same as an extension direction of the first rotation axis and the second rotation axis, and a width direction of the partition plate (140) is the same as an air outlet direction of the air outlet flow.

6. The air conditioner hanging unit according to claim 4, wherein a preset included angle is formed between a connecting line direction of the first rotation axis and the second rotation axis and an air outlet direction of the air outlet flow, and the preset included angle ranges from 50 degrees to 70 degrees.

7. The air conditioner hanging unit according to claim 6, wherein the predetermined included angle is 56 degrees.

8. The air conditioner hanging unit according to claim 1, further comprising a front panel (120), the front panel (120) being mounted on the outer side of the middle frame (110), an air flow channel (190) being formed between the front panel (120) and the middle frame (110), the air flow channel (190) being in communication with the first space (113), the first deflector (150) being configured to direct the outlet air flow into the air flow channel (190).

9. The air conditioner hanging machine according to claim 8, wherein the front panel (120) is densely provided with a plurality of first micropores (121), the first micropores (121) are communicated with the airflow channel (190), and the first micropores (121) are used for the outlet airflow to be blown out.

10. The air conditioner hanging machine according to claim 1, wherein the first deflector (150) is densely provided with a plurality of second micropores (151), the second deflector (160) is densely provided with a plurality of third micropores (161), and both the second micropores (151) and the third micropores (161) are used for the outlet air to flow outwards.

Images