WO2018188370A1 - Air conditioning mechanism - Google Patents

Abstract

An air conditioning mechanism (10), comprising: an air duct (1), air inlet blades (91), air sweeping blades (2), and a first driving mechanism (3). The air duct (1) is provided with air inlets (11) and air outlets (12). The air outlets (12) extend in the circumferential direction and are annular so as to send out air in the circumferential direction in 360-degree fashion. The air inlet blades (91) are provided in the air duct (1) so as to intake air from the air inlets (11) during rotation. The air sweeping blades (2) are rotationally provided at the air outlets (12). The first driving mechanism (3) is used for driving the air sweeping blades (2) to rotate to conduct air sweeping.

Description

空气调节机构Air conditioning mechanism 技术领域Technical field

本发明涉及家用电器技术领域，特别是涉及一种空气调节机构。The invention relates to the technical field of household appliances, and in particular to an air conditioning mechanism.

背景技术Background technique

目前，在专利号为CN201510152730.8和CN200920292241.2的专利中各自公开了一种空气调节机构的送风结构，送风结构的出风口处可以设置扫风叶片进行扫风。然而，由于该两种空气调节机构的出风方式均为单侧送风，扫风范围较窄、且受到较大的限制，导致气流在室内分布不合理，温度均衡能力较差，难以解决放置单个空气调节机构而达到房间内部四周无送风死角的问题，进而使空气调节机构的实用性受到较大限制。At present, in the patents of CN201510152730.8 and CN200920292241.2, respectively, an air supply structure of an air conditioning mechanism is disclosed, and a sweeping blade can be disposed at the air outlet of the air supply structure for sweeping. However, since the air outlet modes of the two air conditioning mechanisms are single-side air supply, the sweeping range is narrow and subject to large restrictions, resulting in unreasonable airflow distribution in the room, poor temperature balance capability, and difficulty in solving the placement. The single air conditioning mechanism achieves the problem of no air supply dead angle around the interior of the room, which further limits the utility of the air conditioning mechanism.

发明内容Summary of the invention

有鉴于此，本发明提供一种空气调节机构，主要目的在于解决现有空气调节机构的扫风范围较窄，导致室内温度均衡能力较差的技术问题。In view of this, the present invention provides an air conditioning mechanism, and the main purpose thereof is to solve the technical problem that the existing air conditioning mechanism has a narrow sweeping range and poor indoor temperature balance capability.

为达到上述目的，本发明主要提供如下技术方案：In order to achieve the above object, the present invention mainly provides the following technical solutions:

本发明的实施例提供一种空气调节机构，包括：Embodiments of the present invention provide an air conditioning mechanism, including:

风道，其具有进风口和出风口，所述出风口在周向上延伸、且形成环形；a duct having an air inlet and an air outlet, the air outlet extending in the circumferential direction and forming a ring shape;

进风风叶，设置在所述风道内，以在转动时使所述进风口进风；An inlet fan blade disposed in the air duct to allow the air inlet to enter the air when rotating;

扫风叶片，可转动地设置在所述出风口处；a sweeping blade rotatably disposed at the air outlet;

第一驱动机构，用于驱动所述扫风叶片转动，以进行扫风。The first driving mechanism is configured to drive the sweeping blade to rotate to sweep the wind.

本发明的目的及解决其技术问题还可采用以下技术措施进一步实现。The object of the present invention and solving the technical problems thereof can be further achieved by the following technical measures.

在前述的空气调节机构中，可选的，所述扫风叶片上设有转轴，所述扫风叶片通过所述转轴可转动地设置在所述出风口处；In the above air conditioning mechanism, optionally, the sweeping blade is provided with a rotating shaft, and the sweeping blade is rotatably disposed at the air outlet through the rotating shaft;

其中，所述第一驱动机构通过驱动所述转轴转动，使所述转轴带动所述扫风叶片转动。The first driving mechanism drives the rotating shaft to rotate, so that the rotating shaft drives the sweeping blades to rotate.

在前述的空气调节机构中，可选的，空气调节机构还包括传动盘和连接件、且两者均位于所述风道外；In the foregoing air conditioning mechanism, optionally, the air conditioning mechanism further includes a drive plate and a connecting member, and both are located outside the air passage;

其中，所述第一驱动机构与所述传动盘连接，以驱动所述传动盘转动；Wherein the first driving mechanism is coupled to the drive plate to drive the drive wheel to rotate;

所述转轴的一端穿过所述风道的外壁；所述连接件的一端与所述转轴的所述一端连接，另一端与所述传动盘配合，所述连接件用于在所述传动盘的驱动下带动所述转轴转动。One end of the rotating shaft passes through an outer wall of the air duct; one end of the connecting member is connected to the one end of the rotating shaft, and the other end is engaged with the driving disc, and the connecting member is used for the driving disc The driving of the rotating shaft is driven by the driving.

在前述的空气调节机构中，可选的，所述传动盘与所述转轴两者的旋转中心线平行且具有间隔；In the foregoing air conditioning mechanism, optionally, the transmission disk is parallel to the rotation center line of the rotating shaft and has a spacing;

所述传动盘上设有呈弧形的导向槽，所述弧形的中心线与所述转轴的旋转中心线重合；The driving disk is provided with an arc-shaped guiding groove, and the center line of the arc coincides with the rotation center line of the rotating shaft;

所述连接件包括基体和设置在所述基体上的定位凸起；所述定位凸起***所述导向槽内，用于在所述传动盘的带动下沿所述导向槽运动，以带动所述基体转动；The connecting member includes a base body and a positioning protrusion disposed on the base body; the positioning protrusion is inserted into the guiding groove for driving along the guiding slot under the driving of the driving disk to drive the Said substrate rotation;

所述转轴的所述一端与所述基体连接、且与所述定位凸起错开设置，以在所述基体的带动下转动。The one end of the rotating shaft is connected to the base body and is disposed offset from the positioning protrusion to rotate under the driving of the base body.

在前述的空气调节机构中，可选的，所述基体呈柱状；所述基体的一端向一侧弯曲形成所述的定位凸起，另一端与所述转轴的所述一端连接。In the foregoing air conditioning mechanism, optionally, the base body has a column shape; one end of the base body is bent to one side to form the positioning protrusion, and the other end is connected to the one end of the rotating shaft.

在前述的空气调节机构中，可选的，空气调节机构还包括：In the foregoing air conditioning mechanism, optionally, the air conditioning mechanism further includes:

第一部件，其包括壳体和第一基板；所述壳体呈筒状，以在其两端形成开口；所述第一基板盖在所述壳体一端的开口处，所述第一基板的中部具有连通所述壳体内部的第一通孔；a first member including a housing and a first substrate; the housing being cylindrical to form an opening at both ends thereof; the first substrate cover at an opening at one end of the housing, the first substrate a central portion has a first through hole communicating with the inside of the housing;

第二部件，其包括第二基板、和设置在所述第二基板上的凸柱；所述凸柱从所述第一基板的背离所述壳体的一侧***所述第一通孔 内，以在所述第一部件和所述第二部件之间形成所述的风道；a second member including a second substrate and a stud disposed on the second substrate; the stud being inserted into the first through hole from a side of the first substrate facing away from the housing Forming the air duct between the first component and the second component;

其中，所述进风口设置在所述壳体的侧壁上；所述第一基板与所述第二基板两者之间具有间隔，且在所述间隔处形成所述的出风口。The air inlet is disposed on a sidewall of the casing; the first substrate and the second substrate are spaced apart from each other, and the air outlet is formed at the interval.

在前述的空气调节机构中，可选的，所述第一部件还包括封盖件，所述封盖件封盖所述壳体的另一端的开口；In the foregoing air conditioning mechanism, optionally, the first component further includes a cover member, the cover member covering an opening of the other end of the housing;

和/或，所述进风口的数量为多个、且在所述壳体的侧壁上沿周向分布。And/or, the number of the air inlets is plural and distributed circumferentially on the side walls of the casing.

在前述的空气调节机构中，可选的，当包括传动盘和连接件时，所述传动盘和所述连接件两者均位于所述第二基板的背离所述凸柱的一侧。In the foregoing air conditioning mechanism, optionally, when the drive plate and the connecting member are included, both the drive plate and the connecting member are located on a side of the second substrate facing away from the stud.

在前述的空气调节机构中，可选的，所述第一驱动机构包括第一电机，所述第一电机与所述传动盘连接，以驱动所述传动盘转动；In the foregoing air conditioning mechanism, optionally, the first driving mechanism includes a first motor, and the first motor is coupled to the driving plate to drive the driving wheel to rotate;

其中，所述第二基板的背离所述凸柱的一面上设有内陷的第一容置槽，所述第一电机设置在所述第一容置槽内。The first substrate facing the protrusion is provided with a first recessed groove, and the first motor is disposed in the first receiving groove.

在前述的空气调节机构中，可选的，空气调节机构还包括：In the foregoing air conditioning mechanism, optionally, the air conditioning mechanism further includes:

导流风叶，固定地设置在所述风道内、且在沿送风方向上位于所述进风风叶的后侧，用于将所述进风风叶吹送的空气整流为沿第一方向流动的气流，其中，所述第一方向与所述导流风叶的轴线方向平行。a deflector vane fixedly disposed in the air duct and located on a rear side of the air inlet vane in a blowing direction for rectifying air blown by the air inlet vane into a first direction a flowing airflow, wherein the first direction is parallel to an axial direction of the flow guiding vane.

在前述的空气调节机构中，可选的，空气调节机构还包括第二驱动机构；In the foregoing air conditioning mechanism, optionally, the air conditioning mechanism further includes a second driving mechanism;

所述第二驱动机构包括第二电机，所述第二电机与所述进风风叶连接，以驱动所述进风风叶转动。The second drive mechanism includes a second motor coupled to the inlet vane to drive the inlet vane to rotate.

在前述的空气调节机构中，可选的，当包括导流风叶时，所述导流风叶包括叶轮和设置在所述叶轮外周壁上的导流叶片；In the foregoing air conditioning mechanism, optionally, when the guide vane is included, the deflector vane includes an impeller and a guide vane disposed on the outer peripheral wall of the impeller;

所述叶轮的背离所述进风风叶的一端具有第二容置槽，所述第二容置槽的底部具有第二通孔；An end of the impeller facing away from the inlet fan blade has a second receiving groove, and a bottom of the second receiving groove has a second through hole;

所述第二电机设置在所述第二容置槽内；所述第二电机的电机轴穿过所述第二通孔、且与所述进风风叶连接，以驱动所述进风风叶转动。The second motor is disposed in the second receiving groove; the motor shaft of the second motor passes through the second through hole and is connected with the inlet fan blade to drive the inlet wind The leaves turn.

在前述的空气调节机构中，可选的，当包括第二基板、和设置在所述第二基板上凸柱时，所述叶轮的背离所述进风风叶的一端与所述凸柱的背离所述第二基板的一端连接。In the foregoing air conditioning mechanism, optionally, when the second substrate is disposed, and the protrusion is disposed on the second substrate, an end of the impeller facing away from the inlet fan blade and the protruding post Connected to one end away from the second substrate.

在前述的空气调节机构中，可选的，所述进风风叶为轴流风叶；In the foregoing air conditioning mechanism, optionally, the inlet fan blade is an axial flow vane;

和/或，所述空气调节机构为风扇或空调器。And/or, the air conditioning mechanism is a fan or an air conditioner.

借由上述技术方案，本发明空气调节机构至少具有以下有益效果：With the above technical solution, the air conditioning mechanism of the present invention has at least the following beneficial effects:

在本发明提供的技术方案中，因为风道的出风口在周向上延伸形成环形，相对于现有技术中的单侧送风，本发明技术方案中的出风口可以使风在周向上呈360度送出，从而可以增大本发明空气调节机构的送风范围，提高室内的温度均衡能力。In the technical solution provided by the present invention, since the air outlet of the air duct extends in the circumferential direction to form a ring shape, compared with the one-side air supply in the prior art, the air outlet in the technical solution of the present invention can make the wind 360 in the circumferential direction. The degree is sent out, so that the air supply range of the air conditioning mechanism of the present invention can be increased, and the temperature equalization capability in the room can be improved.

又因为在出风口处设置有扫风叶片，第一驱动机构可以驱动扫风叶片转动，以进行扫风，从而可以进一步提高室内的温度均衡能力。Moreover, since the air blowing blade is disposed at the air outlet, the first driving mechanism can drive the sweeping blade to rotate to sweep the wind, thereby further improving the temperature equalizing capability of the indoor.

上述说明仅是本发明技术方案的概述，为了能够更清楚了解本发明的技术手段，并可依照说明书的内容予以实施，以下以本发明的较佳实施例并配合附图详细说明如后。The above description is only an overview of the technical solutions of the present invention, and the technical means of the present invention can be more clearly understood and can be implemented in accordance with the contents of the specification. Hereinafter, the preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

附图说明DRAWINGS

图1是本发明的一实施例提供的一种空气调节机构的剖面结构示意图；1 is a schematic cross-sectional structural view of an air conditioning mechanism according to an embodiment of the present invention;

图2是本发明的一实施例提供的一种空气调节机构的立体结构示意图；2 is a schematic perspective view of an air conditioning mechanism according to an embodiment of the present invention;

图3是本发明的一实施例提供的一种空气调节机构的部分结构示意图；3 is a partial structural schematic view of an air conditioning mechanism according to an embodiment of the present invention;

图4是图3中A处的放大结构示意图；Figure 4 is a schematic enlarged view of the structure of Figure 3;

图5是本发明的一实施例提供的一种扫风叶片通过转轴与连接件连接的示意图；5 is a schematic view of a sweeping blade connected to a connecting member through a rotating shaft according to an embodiment of the present invention;

图6是本发明的一实施例提供的一种空气调节机构的分解结构示意图；6 is a schematic exploded view of an air conditioning mechanism according to an embodiment of the present invention;

图7是本发明的一实施例提供的一种第一部件的结构示意图。FIG. 7 is a schematic structural view of a first component according to an embodiment of the present invention.

具体实施方式detailed description

为更进一步阐述本发明为达成预定发明目的所采取的技术手段及功效，以下结合附图及较佳实施例，对依据本发明申请的具体实施方式、结构、特征及其功效，详细说明如后。在下述说明中，不同的“一实施例”或“实施例”指的不一定是同一实施例。此外，一或多个实施例中的特定特征、结构、或特点可由任何合适形式组合。In order to further explain the technical means and functions of the present invention for achieving the intended purpose of the present invention, the specific embodiments, structures, features and functions according to the present application will be described in detail below with reference to the accompanying drawings and preferred embodiments. . In the following description, different "an embodiment" or "an embodiment" does not necessarily mean the same embodiment. Furthermore, the particular features, structures, or characteristics of one or more embodiments can be combined in any suitable form.

如图1和图2所示，本发明的一个实施例提出的一种空气调节机构10，包括风道1、进风风叶91、扫风叶片2和第一驱动机构3。风道1具有进风口11和出风口12。出风口12在周向上延伸、且形成环形，以使风能在周向上呈360度送出。进风风叶91设置在风道1内，以在转动时使进风口11进风。扫风叶片2可转动地设置在出风口12处。第一驱动机构3用于驱动扫风叶片2转动，以进行扫风。As shown in FIG. 1 and FIG. 2, an air conditioning mechanism 10 according to an embodiment of the present invention includes a duct 1, an inlet fan blade 91, a sweeping blade 2, and a first driving mechanism 3. The air duct 1 has an air inlet 11 and an air outlet 12. The air outlet 12 extends in the circumferential direction and forms a ring shape so that wind energy is sent out 360 degrees in the circumferential direction. The inlet fan blade 91 is disposed in the duct 1 to allow the air inlet port 11 to enter the air when rotating. The sweeping blade 2 is rotatably disposed at the air outlet 12. The first drive mechanism 3 is for driving the sweeping blade 2 to rotate to perform sweeping.

在上述提供的技术方案中，因为风道1的出风口12在周向上延伸形成环形，相对于现有技术中的单侧送风，本发明技术方案中的出风口12可以使风在周向上呈360度送出，从而可以增大本发明空气调节机构10的送风范围，提高室内的温度均衡能力。In the technical solution provided above, since the air outlet 12 of the air duct 1 extends in the circumferential direction to form a ring shape, the air outlet 12 in the technical solution of the present invention can make the wind in the circumferential direction with respect to the one-side air supply in the prior art. It is sent out at 360 degrees, so that the air supply range of the air conditioning mechanism 10 of the present invention can be increased, and the temperature equalization capability in the room can be improved.

又因为在出风口12处设置有扫风叶片2，第一驱动机构3可以驱动扫风叶片2转动，以进行扫风，从而可以进一步提高室内的温度均衡能力。Further, since the air blowing blade 2 is provided at the air outlet 12, the first driving mechanism 3 can drive the wind sweeping blade 2 to rotate to perform wind sweeping, thereby further improving the temperature equalizing capability in the room.

另外，由于上述的进风风叶91设置在风道1内，即进风风叶91采用内部安装的方式，从而可以有效防止进风风叶91对人造成直接机械伤害，降低了进风风叶91给人带来的危险性。In addition, since the air inlet fan blade 91 is disposed in the air duct 1, that is, the air inlet fan blade 91 is internally installed, thereby effectively preventing the air inlet fan blade 91 from directly causing mechanical damage to the person and reducing the air inlet wind. Leaf 91 poses a danger to people.

这里需要说明的是：上述的进风风叶91可以为轴流风叶，以有效增大本发明空气调节机构10的出风量，增强空气调节机构10的凉爽、舒适性。It should be noted that the above-mentioned air inlet vane 91 may be an axial flow vane to effectively increase the air volume of the air conditioning mechanism 10 of the present invention, and enhance the cooling and comfort of the air conditioning mechanism 10.

进一步的，如图1和图5所示，上述的扫风叶片2上可以设有转轴21，扫风叶片2通过该转轴21可转动地设置在出风口12处，从 而第一驱动机构3驱动扫风叶片2时，扫风叶片2可以通过该转轴21转动。Further, as shown in FIG. 1 and FIG. 5, the above-mentioned sweeping blade 2 may be provided with a rotating shaft 21 through which the sweeping blade 2 is rotatably disposed at the air outlet 12, so that the first driving mechanism 3 drives When the blade 2 is swept, the sweeping blade 2 can be rotated by the rotating shaft 21.

进一步的，如图1所示，前述的第一驱动机构3通过驱动转轴21转动，使转轴21带动扫风叶片2转动，如此可以缩短力的传递距离，简化传递结构。当然，在一个替代的示例中，上述的第一驱动机构3也可以与扫风叶片2上除转轴21之外的其它部位相连，使扫风叶片2通过转轴21转动。Further, as shown in FIG. 1, the first driving mechanism 3 is rotated by the driving shaft 21, so that the rotating shaft 21 drives the sweeping blade 2 to rotate, so that the force transmission distance can be shortened and the transmission structure can be simplified. Of course, in an alternative example, the first drive mechanism 3 described above can also be connected to a portion of the sweeping blade 2 other than the rotating shaft 21 to rotate the sweeping blade 2 through the rotating shaft 21.

进一步的，如图1、图3和图4所示，本发明的空气调节机构10还可以包括传动盘4和连接件5，传动盘4和连接件5两者均位于风道1外。其中，前述的第一驱动机构3与传动盘4连接，以驱动传动盘4转动。扫风叶片2上转轴21的一端穿过风道1的外壁。连接件5的一端与转轴21的一端连接，另一端与传动盘4配合。连接件5用于在传动盘4的驱动下带动转轴21转动。在本示例中，动力的传动方向为：第一驱动机构3——传动盘4——连接件5——转轴21——扫风叶片2。具体工作过程为：第一驱动机构3驱动传动盘4转动，传动盘4带动连接件5转动，连接件5再带动转轴21转动，进而转轴21带动扫风叶片2转动。Further, as shown in FIGS. 1, 3 and 4, the air conditioning mechanism 10 of the present invention may further include a drive plate 4 and a connecting member 5, both of which are located outside the air duct 1. Wherein, the aforementioned first driving mechanism 3 is connected with the driving plate 4 to drive the driving disk 4 to rotate. One end of the rotating shaft 21 of the sweeping blade 2 passes through the outer wall of the air duct 1. One end of the connecting member 5 is connected to one end of the rotating shaft 21, and the other end is engaged with the driving plate 4. The connecting member 5 is used to drive the rotating shaft 21 to rotate under the driving of the driving plate 4. In the present example, the driving direction of the power is: the first drive mechanism 3 - the drive plate 4 - the connecting member 5 - the rotating shaft 21 - the sweeping blade 2. The specific working process is as follows: the first driving mechanism 3 drives the driving disk 4 to rotate, the driving disk 4 drives the connecting member 5 to rotate, and the connecting member 5 drives the rotating shaft 21 to rotate, and the rotating shaft 21 drives the sweeping blade 2 to rotate.

进一步的，如图1、图3至图5所示，上述的传动盘4与转轴21两者的旋转中心线平行且具有间隔。传动盘4上设有呈弧形的导向槽41，该弧形的中心线与转轴21的旋转中心线重合。前述的连接件5包括基体51和设置在基体51上的定位凸起52。定位凸起52***导向槽41内，用于在传动盘4的带动下沿导向槽41运动，以带动基体51转动。前述转轴21的所述一端与基体51连接、且与定位凸起52错开设置，以在基体51的带动下转动。在本示例中，定位凸起52绕转轴21的中心线公转，而转轴21自身是绕其中心线自转。其中，定位凸起52相当于基体51上的一个把手，定位凸起52在传动盘4的带动下驱动基体51转动，基体51转动时可以带动转轴21转动，进而转轴21带动扫风叶片2转动。Further, as shown in FIGS. 1 and 3 to 5, the above-described driving disk 4 and the rotating shaft 21 have parallel rotation centers and are spaced apart. The drive plate 4 is provided with an arcuate guide groove 41 whose center line coincides with the rotation center line of the rotary shaft 21. The aforementioned connecting member 5 includes a base 51 and positioning projections 52 provided on the base 51. The positioning protrusion 52 is inserted into the guiding groove 41 for moving along the guiding groove 41 under the driving of the driving plate 4 to drive the base body 51 to rotate. The one end of the rotating shaft 21 is connected to the base 51 and is disposed offset from the positioning protrusion 52 to be rotated by the base 51. In the present example, the positioning projection 52 revolves around the center line of the rotating shaft 21, and the rotating shaft 21 itself is rotated about its center line. The positioning protrusion 52 is equivalent to a handle on the base 51. The positioning protrusion 52 drives the base 51 to rotate under the driving of the driving plate 4. When the base 51 rotates, the rotating shaft 21 can be rotated, and the rotating shaft 21 drives the sweeping blade 2 to rotate. .

在一个具体的应用示例中，如图5所示，前述的基体51可以呈 柱状。基体51的一端向一侧弯曲形成前述的定位凸起52，基体51的另一端与转轴21的所述一端连接。在本示例中，基体51和定位凸起52均呈柱状，从而体积可以做的相对较小，并且不影响动力的正常传递。In a specific application example, as shown in Fig. 5, the aforementioned base body 51 may have a columnar shape. One end of the base 51 is bent toward one side to form the aforementioned positioning projection 52, and the other end of the base 51 is connected to the one end of the rotary shaft 21. In the present example, both the base 51 and the positioning projections 52 are cylindrical, so that the volume can be made relatively small and does not affect the normal transmission of power.

进一步的，前述的基体51与转轴21为一体成型结构，如此具有提高基体51与转轴21之间连接稳定性的技术效果。Further, the aforementioned base body 51 and the rotating shaft 21 are integrally formed, and thus have the technical effect of improving the connection stability between the base body 51 and the rotating shaft 21.

在一个具体的应用示例中，如图2、图3和图6所示，前述扫风叶片2的数量为至少两个、且沿周向绕出风口12设置。其中，前述的连接件5和导向槽41的数量与扫风叶片2的数量相等，且一一对应。在本示例中，上述的导向槽41沿传动盘4的旋转中心线呈圆形均匀分布。其中，由于扫风叶片2数量的增加，可以在出风口12处沿周向扫风。In a specific application example, as shown in FIG. 2, FIG. 3 and FIG. 6, the number of the above-mentioned sweeping blades 2 is at least two, and is disposed around the tuyere 12 in the circumferential direction. The number of the connecting members 5 and the guiding grooves 41 is equal to the number of the sweeping blades 2, and corresponds one-to-one. In the present example, the above-described guide grooves 41 are uniformly distributed in a circular shape along the rotation center line of the drive disk 4. Among them, due to the increase in the number of the sweeping blades 2, the wind can be swept in the circumferential direction at the air outlet 12.

在一个具体的应用示例中，如图1、图6和图7所示，本发明的空气调节机构10可以包括第一部件6和第二部件7。第一部件6包括壳体61和第一基板62。壳体61呈筒状，以在其两端形成开口。第一基板62盖在壳体61一端的开口处。第一基板62的中部具有连通壳体61内部的第一通孔621。第二部件7包括第二基板71、和设置在第二基板71上的凸柱72。凸柱72从第一基板62的背离壳体61的一侧***第一通孔621内，以在第一部件6和第二部件7之间形成前述的风道1。其中，前述的进风口11设置在壳体61的侧壁上。第一基板62与第二基板71两者之间具有间隔，且在该间隔处形成前述的出风口12。在本示例中，通过第一部件6和第二部件7的配合，即可以形成前述的风道1，其结构相对较简单，组装较方便。In a specific application example, as shown in FIGS. 1, 6, and 7, the air conditioning mechanism 10 of the present invention may include a first component 6 and a second component 7. The first component 6 includes a housing 61 and a first substrate 62. The housing 61 has a cylindrical shape to form an opening at both ends thereof. The first substrate 62 is covered at an opening at one end of the housing 61. The middle portion of the first substrate 62 has a first through hole 621 that communicates with the inside of the housing 61. The second member 7 includes a second substrate 71, and a stud 72 provided on the second substrate 71. The boss 72 is inserted into the first through hole 621 from the side of the first substrate 62 facing away from the housing 61 to form the aforementioned air passage 1 between the first member 6 and the second member 7. The air inlet 11 is disposed on the side wall of the housing 61. The first substrate 62 and the second substrate 71 have a space therebetween, and the aforementioned air outlet 12 is formed at the interval. In the present example, by the cooperation of the first member 6 and the second member 7, the aforementioned air duct 1 can be formed, which is relatively simple in structure and convenient in assembly.

进一步的，如图1和图2所示，本发明的空气调节机构10整体具有圆柱形的外形，如此可以形成沿径向进风的进风口11、和沿径向出风的出风口12。其中，外部空气沿径向从进风口11流入风道1内，然后气流在风道1内向出风口12沿轴向流动，最后在出风口12处又沿径向流出。Further, as shown in FIGS. 1 and 2, the air conditioning mechanism 10 of the present invention has a cylindrical outer shape as a whole, so that an air inlet 11 that enters the air in the radial direction and an air outlet 12 that vents in the radial direction can be formed. The outside air flows into the air duct 1 from the air inlet 11 in the radial direction, and then the air flow flows in the air duct 1 toward the air outlet 12 in the axial direction, and finally flows out in the radial direction at the air outlet 12.

如图1所示，上述的第一部件6还可以包括封盖件63，该封盖 件63封盖壳体61的另一端的开口，如此当本发明空气调节机构10组装完毕后，进风风叶91完全位于空气调节机构10内部，从而可以进一步防止进风风叶91对人造成直接机械伤害，进一步降低了进风风叶91给人带来的危险性。As shown in FIG. 1, the first member 6 may further include a cover member 63 covering the opening of the other end of the housing 61, so that when the air conditioning mechanism 10 of the present invention is assembled, the air inlet is introduced. The blade 91 is completely located inside the air conditioning mechanism 10, so that the inlet fan blade 91 can be further prevented from causing direct mechanical damage to the person, further reducing the risk of the inlet fan blade 91.

进一步的，如图1所示，上述的封盖件63可以一体成型在壳体61的所述另一端，以提高封盖件63和壳体61之间的连接稳定性。其中，封盖件63与壳体61两者可以形成空气调节机构10的底座，以对整个空气调节机构10提供支撑。Further, as shown in FIG. 1, the above-described cover member 63 may be integrally formed at the other end of the housing 61 to improve the connection stability between the cover member 63 and the housing 61. Wherein, both the cover member 63 and the housing 61 may form the base of the air conditioning mechanism 10 to provide support for the entire air conditioning mechanism 10.

如图1、图2、图6和图7所示，上述进风口11的数量可以为多个、且在壳体61的侧壁上沿周向分布，以增大本发明空气调节机构10的进风面积，提高空气调节机构10在单位时间内的进风量。优选的，该多个进风口11在壳体61的侧壁上沿周向均匀分布，以提高本发明空气调节机构10外形的美观性。As shown in FIG. 1, FIG. 2, FIG. 6, and FIG. 7, the number of the air inlets 11 may be plural and distributed circumferentially on the side walls of the casing 61 to increase the air conditioning mechanism 10 of the present invention. The air inlet area increases the air intake amount of the air conditioning mechanism 10 per unit time. Preferably, the plurality of air inlets 11 are uniformly distributed in the circumferential direction on the side wall of the casing 61 to improve the appearance of the outer shape of the air conditioning mechanism 10 of the present invention.

上述的进风口11可以为呈圆形的小孔。The air inlet 11 described above may be a small hole having a circular shape.

进一步的，如图1和图3所示，在前述包括传动盘4和连接件5的示例中，传动盘4和连接件5两者可以均位于第二基板71的背离凸柱72的一侧。Further, as shown in FIGS. 1 and 3, in the foregoing example including the driving disk 4 and the connecting member 5, both the driving disk 4 and the connecting member 5 may be located on the side of the second substrate 71 facing away from the boss 72. .

进一步的，如图1和图6所示，本发明的空气调节机构10还可以包括顶盖8，顶盖8盖合在前述第二基板71的背离凸柱72的一侧，顶盖8与第二基板71之间具有容纳空间，传动盘4和连接件5均位于该容纳空间内。Further, as shown in FIG. 1 and FIG. 6, the air conditioning mechanism 10 of the present invention may further include a top cover 8 covering the side of the second substrate 71 facing away from the stud 72, and the top cover 8 and There is an accommodation space between the second substrates 71, and the drive plate 4 and the connecting member 5 are both located in the accommodation space.

进一步的，如图1和图6所示，前述的第一驱动机构3可以包括第一电机，第一电机与传动盘4连接，以驱动传动盘4转动。其中，第二基板71的背离凸柱72的一面上设有内陷的第一容置槽711，第一电机设置在第一容置槽711内，以使本发明空气调节机构10的整体结构更加紧凑。Further, as shown in FIGS. 1 and 6, the aforementioned first driving mechanism 3 may include a first motor, and the first motor is coupled to the driving plate 4 to drive the driving disk 4 to rotate. The first substrate 711 is disposed on the first surface of the second substrate 71 facing away from the stud 72, and the first motor is disposed in the first accommodating groove 711 to make the overall structure of the air conditioning mechanism 10 of the present invention. More compact.

优选的，上述第一电机的输出轴穿过传动盘4、且与传动盘4螺纹连接，第一电机的输出轴与传递盘两者通过螺母锁紧固定。Preferably, the output shaft of the first motor passes through the drive plate 4 and is screwed to the drive plate 4, and the output shaft of the first motor and the transfer plate are both fixed by a nut.

如图1和图6所示，本发明的空气调节机构10还可以包括导流 风叶93，导流风叶93固定地设置在风道1内、且在沿送风方向上位于进风风叶91的后侧。导流风叶93用于将进风风叶91吹送的空气整流为沿第一方向流动的气流。其中，第一方向与导流风叶93的轴线方向平行。在本示例中，由于导流风叶93可以对气流进行整流，以使风沿轴向流动，从而使气流在风道1内有规律的流动，减少了涡流等的发生，进而使气流流动的阻力大大降低。As shown in FIGS. 1 and 6, the air conditioning mechanism 10 of the present invention may further include a flow guiding vane 93 fixedly disposed in the air duct 1 and located in the air blowing direction in the air blowing direction. The back side of the leaf 91. The deflector vanes 93 are used to rectify the air blown by the inlet vanes 91 into a gas stream flowing in the first direction. The first direction is parallel to the axial direction of the guide vane 93. In the present example, since the deflector vanes 93 can rectify the airflow so that the wind flows in the axial direction, the airflow flows regularly in the duct 1, reducing the occurrence of eddy currents and the like, thereby causing the airflow to flow. The resistance is greatly reduced.

如图1和图6所示，本发明的空气调节机构10还可以包括第二驱动机构。第二驱动机构包括第二电机92。该第二电机92与进风风叶91连接，以驱动进风风叶91转动。其中，相对于手动驱动进风风叶91转动，本示例中采用第二电机92驱动进风风叶91转动，可以节省人力。As shown in Figures 1 and 6, the air conditioning mechanism 10 of the present invention may further include a second drive mechanism. The second drive mechanism includes a second motor 92. The second motor 92 is coupled to the inlet fan blade 91 to drive the inlet fan blade 91 to rotate. Wherein, in comparison with the manual driving of the inlet fan blade 91, the second motor 92 is used to drive the inlet fan blade 91 to rotate, which saves manpower.

进一步的，如图1和图6所示，在前述包括导流风叶93的示例中，导流风叶93包括叶轮931和设置在叶轮931外周壁上的导流叶片932。叶轮931的背离进风风叶91的一端具有第二容置槽9311。第二容置槽9311的底部具有第二通孔。第二电机92设置在第二容置槽9311内。第二电机92的电机轴穿过第二通孔、且与进风风叶91连接，以驱动进风风叶91转动。在本示例中，通过将第二电机92设置在叶轮931内部，可以有效利用空气调节机构10内部有限的空间，使空气调节机构10的体积减小。Further, as shown in FIGS. 1 and 6, in the foregoing example including the guide vane 93, the deflector vane 93 includes an impeller 931 and a guide vane 932 disposed on the outer peripheral wall of the impeller 931. One end of the impeller 931 facing away from the inlet fan blade 91 has a second accommodating groove 9311. The bottom of the second receiving groove 9311 has a second through hole. The second motor 92 is disposed in the second receiving groove 9311. The motor shaft of the second motor 92 passes through the second through hole and is coupled to the inlet fan blade 91 to drive the inlet fan blade 91 to rotate. In the present example, by arranging the second motor 92 inside the impeller 931, the limited space inside the air conditioning mechanism 10 can be effectively utilized, and the volume of the air conditioning mechanism 10 can be reduced.

上述的第二电机92的电机轴可以穿过进风风叶91的叶轮，且通过螺母与进风风叶91固定连接。The motor shaft of the second motor 92 described above can pass through the impeller of the inlet fan blade 91 and is fixedly coupled to the inlet fan blade 91 by a nut.

进一步的，如图1所示，在前述包括第二基板71、和设置在第二基板71上凸柱72的示例中，叶轮931的背离进风风叶91的一端与凸柱72的背离第二基板71的一端连接，如此可以使空气调节机构10内部的结构更加紧凑。Further, as shown in FIG. 1 , in the foregoing example including the second substrate 71 and the protrusion 72 disposed on the second substrate 71 , the end of the impeller 931 facing away from the inlet fan blade 91 and the protrusion 72 are separated from each other. One end of the two substrates 71 is connected, which makes the structure inside the air conditioning mechanism 10 more compact.

本发明实施例提供的空气调节机构10可以为风扇或空调器等，本领域的技术人员应当理解，风扇或空调器仅为示例，并不用于对本实施例的技术方案进行限制，其他类型的空气调节机构也都适用。The air conditioning mechanism 10 provided by the embodiment of the present invention may be a fan or an air conditioner, etc., and those skilled in the art should understand that the fan or the air conditioner is only an example, and is not used to limit the technical solutions of the embodiment, other types of air. Adjustment mechanisms are also available.

下面介绍一下本发明的工作原理和优选实施例。The working principle and preferred embodiment of the present invention are described below.

上述提供的技术方案可以达到如下目的：1、进风风叶91采用内部安装的方式，可以有效防止进风风叶91对人造成直接机械伤害，降低进风风叶91给人带来的危险性。2、通过风道1的引导，可以使径向来流空气随风道1转换为沿径向呈360°无死角送风。3、在电机的控制下，通过传动盘4驱动扫风叶片2，使来流空气沿周向呈一定的角度摆动送风，增大扫风范围。4、进风风叶91采用轴流风叶，有效增大空气调节机构10的出风量，增强空气调节机构10的凉爽、舒适性。The technical solution provided above can achieve the following objectives: 1. The air inlet fan blade 91 is internally installed, which can effectively prevent the direct air blade 91 from causing direct mechanical damage to the person and reduce the danger brought by the air inlet fan blade 91. Sex. 2. Through the guidance of the air duct 1, the radial inflowing air can be converted with the air duct 1 into a 360° radial air supply without radial direction. 3. Under the control of the motor, the sweeping blade 2 is driven by the driving plate 4, so that the incoming air is oscillated at a certain angle in the circumferential direction to increase the sweeping range. 4. The air inlet fan blade 91 adopts the axial flow fan blade, effectively increases the air volume of the air conditioning mechanism 10, and enhances the coolness and comfort of the air conditioning mechanism 10.

本发明空气调节机构10的进风方式：如图1所示，启动第二电机92，第二电机92的定、转子在电磁场作用下产生电磁力，在电磁力作用下电机转子开始转动。第二电机92的电机轴通过螺母与进风风叶91连接，以在转动时带动进风风叶91一起旋转运动。进风风叶91旋转时，进风风叶91的压力面对空气做功，产生正压，将空气向风道1上部推送，进风风叶91的吸力面产生负压，与此同时，第一部件6的壳体61内部产生负压，由于壳体61外部为正压，因此壳体61外部压力高于壳体61内部压力，迫使空气调节机构10外部空气通过壳体61侧表面的进风口11流入壳体61内。In the air inlet mode of the air conditioning mechanism 10 of the present invention, as shown in FIG. 1, the second motor 92 is activated, and the stator and the rotor of the second motor 92 generate an electromagnetic force under the action of an electromagnetic field, and the rotor of the motor starts to rotate under the action of the electromagnetic force. The motor shaft of the second motor 92 is coupled to the inlet fan blade 91 via a nut to drive the inlet fan blade 91 to rotate together during rotation. When the inlet fan blade 91 rotates, the pressure of the inlet fan blade 91 faces the air to perform work, generates a positive pressure, pushes the air toward the upper portion of the air duct 1, and generates a negative pressure on the suction surface of the inlet fan blade 91, and at the same time, A negative pressure is generated inside the casing 61 of a part 6, and since the outside of the casing 61 is a positive pressure, the external pressure of the casing 61 is higher than the internal pressure of the casing 61, forcing the outside air of the air conditioning mechanism 10 to pass through the side surface of the casing 61. The tuyere 11 flows into the casing 61.

本发明空气调节机构风道1内的导流方式：如图1所示，通过进风风叶91向风道1上部推送的空气流经导流叶片932，导流叶片932将空气整流为与导流叶片932的轴线相同方向的气流。The flow guiding mode in the air duct 1 of the air conditioning mechanism of the present invention: as shown in FIG. 1, the air pushed by the air inlet vane 91 to the upper portion of the air duct 1 flows through the guide vane 932, and the air guiding vane 932 rectifies the air into The airflow of the guide vanes 932 in the same direction of the axis.

本发明空气调节机构10的出风方式：如图1所示，来流空气通过风道1的进风口11流入风道1，气流在风道1内沿其内壁面流动，来流空气在风道1内壁的约束作用下，最终在出风口12处转换为与轴线垂直的360°径向方向送风。The air outlet mechanism of the air conditioning mechanism 10 of the present invention: as shown in FIG. 1, the incoming air flows into the air passage 1 through the air inlet 11 of the air duct 1, and the airflow flows along the inner wall surface in the air duct 1 to flow air in the wind. Under the constraint of the inner wall of the track 1, the air is finally converted into a 360° radial direction perpendicular to the axis at the air outlet 12.

本发明空气调节机构10的扫风方式：如图1所示，传动盘4与第一电机的轴端通过螺母固定。传动盘4设有呈弧形的导向槽41，连接件5上的定位凸起52***导向槽41内，扫风叶片2的转轴21与连接件5的基体51连接。启动第一电机，第一电机在电源的作用下，内部定、转子在电磁场作用下产生电磁力，第一电机的转子在电 磁力的作用下开始进行往返转动，传动盘4在第一电机的转子的往返转动作用下进行相同的往返转动。传动盘4转动时通过连接件5将动力矩传递给扫风叶片2上的转轴21，进而使扫风叶片2来回转动，最终将从风沿周向呈360度送出。The air-sweeping mode of the air-conditioning mechanism 10 of the present invention: as shown in FIG. 1, the drive disk 4 and the shaft end of the first motor are fixed by nuts. The drive plate 4 is provided with an arcuate guide groove 41. The positioning projection 52 on the connecting member 5 is inserted into the guide groove 41, and the rotating shaft 21 of the sweeping blade 2 is connected to the base 51 of the connecting member 5. Starting the first motor, the first motor generates an electromagnetic force under the action of the power source, the internal stator and the rotor generate electromagnetic force under the action of the electromagnetic field, and the rotor of the first motor starts to rotate back and forth under the action of the electromagnetic force, and the drive disk 4 is in the first motor The same reciprocating rotation is performed by the reciprocating rotation of the rotor. When the drive disc 4 rotates, the dynamic torque is transmitted to the rotating shaft 21 on the sweeping blade 2 through the connecting member 5, and the sweeping vane 2 is rotated back and forth, and finally sent out 360 degrees from the wind in the circumferential direction.

以上所述，仅是本发明的较佳实施例而已，并非对本发明作任何形式上的限制，依据本发明的技术实质对以上实施例所作的任何简单修改、等同变化与修饰，均仍属于本发明技术方案的范围内。The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Any simple modifications, equivalent changes and modifications made to the above embodiments in accordance with the technical spirit of the present invention are still in the present invention. Within the scope of the inventive solution.

Claims (14)

1. 一种空气调节机构，其特征在于，包括：An air conditioning mechanism, comprising:

   风道(1)，其具有进风口(11)和出风口(12)，所述出风口(12)在周向上延伸、且形成环形；a duct (1) having an air inlet (11) and an air outlet (12), the air outlet (12) extending in a circumferential direction and forming a ring shape;

   进风风叶(91)，设置在所述风道(1)内，以在转动时使所述进风口(11)进风；An inlet fan blade (91) is disposed in the air duct (1) to allow the air inlet (11) to enter the air when rotating;

   扫风叶片(2)，可转动地设置在所述出风口(12)处；a sweeping blade (2) rotatably disposed at the air outlet (12);

   第一驱动机构(3)，用于驱动所述扫风叶片(2)转动，以进行扫风。The first driving mechanism (3) is configured to drive the sweeping blade (2) to rotate to sweep the wind.
2. 如权利要求1所述的空气调节机构，其特征在于，The air conditioning mechanism of claim 1 wherein:

   所述扫风叶片(2)上设有转轴(21)，所述扫风叶片(2)通过所述转轴(21)可转动地设置在所述出风口(12)处；The sweeping blade (2) is provided with a rotating shaft (21), and the sweeping blade (2) is rotatably disposed at the air outlet (12) through the rotating shaft (21);

   其中，所述第一驱动机构(3)通过驱动所述转轴(21)转动，使所述转轴(21)带动所述扫风叶片(2)转动。The first driving mechanism (3) rotates the driving shaft (21) to cause the rotating shaft (21) to rotate the sweeping blade (2).
3. 如权利要求2所述的空气调节机构，其特征在于，还包括传动盘(4)和连接件(5)、且两者均位于所述风道(1)外；The air conditioning mechanism according to claim 2, further comprising a drive plate (4) and a connecting member (5), both of which are located outside said air passage (1);

   其中，所述第一驱动机构(3)与所述传动盘(4)连接，以驱动所述传动盘(4)转动；Wherein the first drive mechanism (3) is coupled to the drive plate (4) to drive the drive plate (4) to rotate;

   所述转轴(21)的一端穿过所述风道(1)的外壁；所述连接件(5)的一端与所述转轴(21)的所述一端连接，另一端与所述传动盘(4)配合，所述连接件(5)用于在所述传动盘(4)的驱动下带动所述转轴(21)转动。One end of the rotating shaft (21) passes through an outer wall of the air duct (1); one end of the connecting member (5) is connected to the one end of the rotating shaft (21), and the other end is connected to the driving disc ( 4) Cooperating, the connecting member (5) is used to drive the rotating shaft (21) to rotate under the driving of the driving plate (4).
4. 如权利要求3所述的空气调节机构，其特征在于，The air conditioning mechanism according to claim 3, wherein

   所述传动盘(4)与所述转轴(21)两者的旋转中心线平行且具有间隔；The drive plate (4) is parallel to and has a spacing from a center line of rotation of the rotating shaft (21);

   所述传动盘(4)上设有呈弧形的导向槽(41)，所述弧形的中心线与所述转轴(21)的旋转中心线重合；The driving disk (4) is provided with an arc-shaped guiding groove (41), and the center line of the arc coincides with the rotation center line of the rotating shaft (21);

   所述连接件(5)包括基体(51)和设置在所述基体(51)上的定位凸起(52)；所述定位凸起(52)***所述导向槽(41)内，用 于在所述传动盘(4)的带动下沿所述导向槽(41)运动，以带动所述基体(51)转动；The connecting member (5) includes a base body (51) and a positioning protrusion (52) disposed on the base body (51); the positioning protrusion (52) is inserted into the guiding groove (41) for Moving along the guiding groove (41) under the driving of the driving disc (4) to drive the base body (51) to rotate;

   所述转轴(21)的所述一端与所述基体(51)连接、且与所述定位凸起(52)错开设置，以在所述基体(51)的带动下转动。The one end of the rotating shaft (21) is connected to the base body (51) and is disposed offset from the positioning protrusion (52) to be rotated by the base body (51).
5. 如权利要求4所述的空气调节机构，其特征在于，The air conditioning mechanism according to claim 4, wherein

   所述基体(51)呈柱状；所述基体(51)的一端向一侧弯曲形成所述的定位凸起(52)，另一端与所述转轴(21)的所述一端连接。The base body (51) has a columnar shape; one end of the base body (51) is bent to one side to form the positioning protrusion (52), and the other end is connected to the one end of the rotating shaft (21).
6. 如权利要求1至5中任一项所述的空气调节机构，其特征在于，还包括：The air conditioning mechanism according to any one of claims 1 to 5, further comprising:

   第一部件(6)，其包括壳体(61)和第一基板(62)；所述壳体(61)呈筒状，以在其两端形成开口；所述第一基板(62)盖在所述壳体(61)一端的开口处，所述第一基板(62)的中部具有连通所述壳体(61)内部的第一通孔(621)；a first member (6) comprising a housing (61) and a first substrate (62); the housing (61) being cylindrical to form an opening at both ends thereof; the first substrate (62) cover The first substrate (62) has a first through hole (621) communicating with the inside of the housing (61) at an opening at one end of the housing (61);

   第二部件(7)，其包括第二基板(71)、和设置在所述第二基板(71)上的凸柱(72)；所述凸柱(72)从所述第一基板(62)的背离所述壳体(61)的一侧***所述第一通孔(621)内，以在所述第一部件(6)和所述第二部件(7)之间形成所述的风道(1)；a second component (7) comprising a second substrate (71), and a stud (72) disposed on the second substrate (71); the stud (72) from the first substrate (62) Inserted into the first through hole (621) from a side facing away from the housing (61) to form the said first member (6) and the second member (7) Wind channel (1);

   其中，所述进风口(11)设置在所述壳体(61)的侧壁上；所述第一基板(62)与所述第二基板(71)两者之间具有间隔，且在所述间隔处形成所述的出风口(12)。Wherein, the air inlet (11) is disposed on a sidewall of the casing (61); the first substrate (62) and the second substrate (71) are spaced apart from each other, and The air outlet (12) is formed at the interval.
7. 如权利要求6所述的空气调节机构，其特征在于，The air conditioning mechanism of claim 6 wherein:

   所述第一部件(6)还包括封盖件(63)，所述封盖件(63)封盖所述壳体(61)的另一端的开口；The first component (6) further includes a cover member (63), the cover member (63) covering an opening of the other end of the housing (61);

   和/或，所述进风口(11)的数量为多个、且在所述壳体(61)的侧壁上沿周向分布。And/or, the number of the air inlets (11) is plural and distributed circumferentially on the side walls of the casing (61).
8. 如权利要求6或7所述的空气调节机构，其特征在于，The air conditioning mechanism according to claim 6 or 7, wherein

   当包括传动盘(4)和连接件(5)时，所述传动盘(4)和所述连接件(5)两者均位于所述第二基板(71)的背离所述凸柱(72)的一侧。When the drive disc (4) and the connecting member (5) are included, both the drive disc (4) and the connecting member (5) are located away from the stud (72) of the second substrate (71) One side.
9. 如权利要求8所述的空气调节机构，其特征在于，The air conditioning mechanism of claim 8 wherein:

   所述第一驱动机构(3)包括第一电机，所述第一电机与所述传动盘(4)连接，以驱动所述传动盘(4)转动；The first driving mechanism (3) includes a first motor, and the first motor is coupled to the driving plate (4) to drive the driving disk (4) to rotate;

   其中，所述第二基板(71)的背离所述凸柱(72)的一面上设有内陷的第一容置槽(711)，所述第一电机设置在所述第一容置槽(711)内。a first receiving groove (711) of the second substrate (71) facing away from the protruding post (72) is provided with an indentation, and the first motor is disposed in the first receiving groove (711).
10. 如权利要求1至9中任一项所述的空气调节机构，其特征在于，还包括：The air conditioning mechanism according to any one of claims 1 to 9, further comprising:

    导流风叶(93)，固定地设置在所述风道(1)内、且在沿送风方向上位于所述进风风叶(91)的后侧，用于将所述进风风叶(91)吹送的空气整流为沿第一方向流动的气流，其中，所述第一方向与所述导流风叶(93)的轴线方向平行。a deflector vane (93) fixedly disposed in the duct (1) and located on a rear side of the inlet vane (91) in a blowing direction for the inlet wind The air blown by the leaves (91) is rectified into a gas flow flowing in a first direction, wherein the first direction is parallel to the axial direction of the flow guiding vanes (93).
11. 如权利要求1至10中任一项所述的空气调节机构，其特征在于，还包括第二驱动机构；The air conditioning mechanism according to any one of claims 1 to 10, further comprising a second driving mechanism;

    所述第二驱动机构包括第二电机(92)，所述第二电机(92)与所述进风风叶(91)连接，以驱动所述进风风叶(91)转动。The second drive mechanism includes a second motor (92) coupled to the inlet fan blade (91) to drive the inlet fan blade (91) to rotate.
12. 如权利要求11所述的空气调节机构，其特征在于，The air conditioning mechanism according to claim 11 wherein:

    当包括导流风叶(93)时，所述导流风叶(93)包括叶轮(931)和设置在所述叶轮(931)外周壁上的导流叶片(932)；When the deflector vane (93) is included, the deflector vane (93) includes an impeller (931) and a guide vane (932) disposed on an outer peripheral wall of the impeller (931);

    所述叶轮(931)的背离所述进风风叶(91)的一端具有第二容置槽(9311)，所述第二容置槽(9311)的底部具有第二通孔；An end of the impeller (931) facing away from the inlet fan blade (91) has a second receiving groove (9311), and a bottom of the second receiving groove (9311) has a second through hole;

    所述第二电机(92)设置在所述第二容置槽(9311)内；所述第二电机(92)的电机轴穿过所述第二通孔、且与所述进风风叶(91)连接，以驱动所述进风风叶(91)转动。The second motor (92) is disposed in the second receiving groove (9311); the motor shaft of the second motor (92) passes through the second through hole, and the inlet fan blade (91) connecting to drive the inlet fan blade (91) to rotate.
13. 如权利要求12所述的空气调节机构，其特征在于，The air conditioning mechanism according to claim 12, wherein

    当包括第二基板(71)、和设置在所述第二基板(71)上凸柱(72)时，所述叶轮(931)的背离所述进风风叶(91)的一端与所述凸柱(72)的背离所述第二基板(71)的一端连接。When the second substrate (71) is included, and the protrusion (72) is disposed on the second substrate (71), an end of the impeller (931) facing away from the inlet fan blade (91) is An end of the stud (72) facing away from the second substrate (71) is connected.
14. 如权利要求1至13中任一项所述的空气调节机构，其特征 在于，The air conditioning mechanism according to any one of claims 1 to 13, wherein

    所述进风风叶(91)为轴流风叶；The inlet fan blade (91) is an axial flow vane;

    和/或，所述空气调节机构为风扇或空调器。And/or, the air conditioning mechanism is a fan or an air conditioner.

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