WO2022041077A1 - Temperature-control air conditioner capable of automatically adjusting wind direction and wind speed - Google Patents

Abstract

Provided is a temperature-control air conditioner capable of automatically adjusting the wind direction and the wind speed, comprising an air conditioner body, a cover arranged on the outer surface of the air conditioner body, two transverse coaxial cross-flow fans provided within the air conditioner body, two transverse air guide plates parallelly arranged on the outer surface of the air conditioner body, two transverse air outlets provided between the cross-flow fans and the air guide plates, an intelligent detection mechanism embedded in the surface of the cover and an adjustment controller provided within the air conditioner body. The intelligent detection mechanism is used to monitor whether a person is present in the current environment, if there is, the person category is identified, and meanwhile, the body surface temperature of the person, the geographic location of the person and the distance of the person from the air conditioner body are monitored. The monitoring results are sent to the adjustment controller. The adjustment controller compares, according to the monitoring results, the body temperature of different persons to the threshold body temperature, and generates corresponding body temperature comparison results according to the different persons. Adjustments of the wind direction, the wind speed and the temperature are achieved by, in combination to the comparison results, controlling the rotating speed and air outlet direction of the cross-flow fans.

Description

一种自动调节风向和风速的控温空调A temperature-controlled air conditioner that automatically adjusts wind direction and wind speed 技术领域technical field

本申请涉及智能家居领域，尤其涉及一种自动调节风向和风速的控温空调。The present application relates to the field of smart homes, and in particular, to a temperature-controlled air conditioner that automatically adjusts wind direction and wind speed.

背景技术Background technique

空调是利用压缩机、冷凝器、膨胀装置和蒸发器对室内进行制冷或制热操作的装置，目前，家用空调大多数是分体式的，即由室外机和壁挂式空调室内机组成，其风扇***一般包括一个贯流风扇及风扇电机，在出风口处设置有一个或两个横向导风板和多个纵向导风板，横向风板水平方向为一体结构，运行时上下风向一致，多个纵向风板左右方向风向一致，通常在使用面积小于18平方米的房间内，一般都安装分体壁挂式空调。An air conditioner is a device that uses a compressor, a condenser, an expansion device and an evaporator to cool or heat the room. At present, most of the household air conditioners are split, that is, they are composed of an outdoor unit and a wall-mounted air conditioner indoor unit. The system generally includes a cross-flow fan and a fan motor. One or two horizontal wind deflectors and a plurality of longitudinal wind deflectors are arranged at the air outlet. The horizontal direction of the horizontal wind plates is an integrated structure. Longitudinal wind panels have the same wind direction in the left and right directions. Generally, in rooms with an area of less than 18 square meters, split wall-mounted air conditioners are generally installed.

参见图1，图1为家用壁挂式空调的场景示意图，家用壁挂式空调的送风过程为，室内的空气在贯流风扇的作用下进入到室内机中，经换热器换热后从下面的排风口出风。一般可以调节空调的模式为制冷或制热，指定空调温度及送风模式等，现有的送风模式包括左右扫风模式和上下扫风模式，但无论是其中的哪一种扫风模式，都是对空调所在的整体空间进行扫风，这对于只需要对部分区域进行扫风的场景来说，无法灵活控制扫风的区域，导致不需要吹风的区域也能被风吹到。例如，当房间内存在两人或两人以上时，室内空调无法实现多个方向进行分向送风，而且，不同的用户对送风速度和送风温度也有不同需求，当前室内空调无法控制风向和风速。Referring to Figure 1, Figure 1 is a schematic diagram of a home wall-mounted air conditioner. The air supply process of the home wall-mounted air conditioner is that the indoor air enters the indoor unit under the action of the cross-flow fan, and after heat exchange by the heat exchanger, the air flows from the bottom. air outlet. Generally, the air-conditioning mode can be adjusted to cooling or heating, and the air-conditioning temperature and air supply mode can be specified. They all swept the entire space where the air conditioner is located. For scenarios where only part of the area needs to be swept, the area to be swept cannot be flexibly controlled, resulting in areas that do not need to be blown by the wind. For example, when there are two or more people in the room, the indoor air conditioner cannot provide air supply in multiple directions. Moreover, different users have different requirements for the air supply speed and air supply temperature, and the current indoor air conditioner cannot control the wind direction. and wind speed.

为了避免空调直吹导致不适的现象，通常在空调上外置空调挡板，但是孔板挡板也会挡住一部分风，导致吹向用户的风明显减少，浪费了大量电能，同时也会影响空调外观。In order to avoid the discomfort caused by the direct blow of the air conditioner, an air conditioner baffle is usually installed on the air conditioner, but the orifice plate baffle will also block part of the wind, resulting in a significant reduction in the wind blowing to the user, wasting a lot of power, and also affecting the air conditioner. Exterior.

发明内容SUMMARY OF THE INVENTION

本申请提供了一种自动调节风向和风速的控温空调，以解决现有空调无法控制风向和风速的问题。The present application provides a temperature-controlled air conditioner that automatically adjusts the wind direction and wind speed, so as to solve the problem that the existing air conditioner cannot control the wind direction and wind speed.

一种自动调节风向和风速的控温空调，包括：A temperature-controlled air conditioner capable of automatically adjusting wind direction and wind speed, comprising:

空调机体；air conditioner body;

面罩，设置在所述空调机体的外表面；a mask, arranged on the outer surface of the air conditioner body;

两个横向同轴的贯流风扇，内置于所述空调机体，所述贯流风扇包括旋转轴、旋转叶片以及风扇隔板，所述旋转轴贯穿所述贯流风扇，所述旋转叶片均匀分布在所述旋转轴的表面，所述风扇隔板设置在两个所述贯流风扇之间，以使两个所述贯流风扇各自独立；Two transversely coaxial cross-flow fans are built into the air conditioner body. The cross-flow fans include a rotating shaft, a rotating blade and a fan baffle. The rotating shaft runs through the cross-flow fan, and the rotating blades are evenly distributed. On the surface of the rotating shaft, the fan partition is arranged between the two cross-flow fans, so that the two cross-flow fans are independent of each other;

两个横向导风板，并排设置于所述空调机体的外表面，两个所述横向导风板设置于所述面罩的底部，两个所述横向导风板遮挡两个所述贯流风扇；Two transverse wind deflectors are arranged side by side on the outer surface of the air conditioner body, and the two transverse wind deflectors are arranged on the bottom of the mask, and the two transverse wind deflectors shield the two cross-flow fans. ;

两个横向出风口，每个所述横向出风口设置于所述贯流风扇与所述导风板之间；two lateral air outlets, each of which is arranged between the cross-flow fan and the air deflector;

智能探测机构，嵌设于所述面罩的表面，所述智能探测机构包括半球容置槽以及内置于所述半球容置槽的可旋转摄像组件、红外探测组件，所述可旋转摄像组件与所述红外探测组件电连接；The intelligent detection mechanism is embedded on the surface of the mask, and the intelligent detection mechanism includes a hemisphere accommodating groove, a rotatable camera assembly and an infrared detection assembly built into the hemisphere accommodating groove, and the rotatable camera assembly and the The infrared detection component is electrically connected;

调节控制器，内置于所述空调机体，所述调节控制器与所述贯流风扇以及所述智能探 测机构电连接。An adjustment controller is built in the air conditioner body, and the adjustment controller is electrically connected with the cross-flow fan and the intelligent detection mechanism.

由以上技术方案可知，本申请提供一种自动调节风向和风速的控温空调，包括空调机体、设置在空调机体外表面的面罩、内置于空调机体的两个横向同轴的贯流风扇、并排设置于空调机体外表面的两个横向导风板、设置于贯流风扇与导风板之间的两个横向出风口、嵌设于面罩表面的智能探测机构以及内置于空调机体的调节控制器，智能探测机构用于监测当前环境是否有人存在，如果有，识别出人员类别同时监测人员体表温度、人员地理位置以及人员与空调机体的距离，并将监测结果发送至调节控制器，调节控制器根据监测结果将不同人员的体表体温与阈值体温进行对比，根据不同人员生成对应的体温对比结果，结合对比结果通过控制贯流风扇的转速和出风方向，实现风向、风速及温度的调节。It can be seen from the above technical solutions that the present application provides a temperature-controlled air conditioner that automatically adjusts the wind direction and speed, including an air conditioner body, a mask arranged on the outer surface of the air conditioner body, and two horizontal coaxial cross-flow fans built into the air conditioner body, side by side. Two horizontal air deflectors arranged on the outer surface of the air conditioner body, two horizontal air outlets arranged between the cross-flow fan and the air deflector, an intelligent detection mechanism embedded in the surface of the mask, and an adjustment controller built into the air conditioner body , the intelligent detection mechanism is used to monitor whether there is someone in the current environment. If there is, identify the type of person and monitor the temperature of the person's body surface, the geographical location of the person, and the distance between the person and the air conditioner body, and send the monitoring results to the adjustment controller. The device compares the body temperature of different people with the threshold body temperature according to the monitoring results, and generates the corresponding body temperature comparison results according to different people. Combined with the comparison results, the wind direction, wind speed and temperature can be adjusted by controlling the rotation speed and air outlet direction of the cross-flow fan. .

附图说明Description of drawings

为了更清楚地说明本申请的技术方案，下面将对实施例中所需要使用的附图作简单地介绍，显而易见地，对于本领域普通技术人员而言，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。In order to illustrate the technical solutions of the present application more clearly, the accompanying drawings required in the embodiments will be briefly introduced below. Obviously, for those of ordinary skill in the art, without creative work, the Additional drawings can be obtained from these drawings.

图1为家用壁挂式空调的场景示意图；Fig. 1 is a scene schematic diagram of a household wall-mounted air conditioner;

图2为本申请提供的一种自动调节风向和风速的控温空调结构示意图；2 is a schematic structural diagram of a temperature-controlled air conditioner that automatically adjusts wind direction and wind speed provided by the application;

图3为所述控温空调中贯流风扇的结构示意图；3 is a schematic structural diagram of a cross-flow fan in the temperature-controlled air conditioner;

图4为所述控温空调中导风板的结构示意图；4 is a schematic structural diagram of an air deflector in the temperature-controlled air conditioner;

图5为所述控温空调中智能探测机构嵌设于面罩的侧面结构示意图；Fig. 5 is the side structure schematic diagram of the intelligent detection mechanism embedded in the mask in the temperature-controlled air conditioner;

图6为所述控温空调中智能探测机构正面的结构示意图；6 is a schematic structural diagram of the front of the intelligent detection mechanism in the temperature-controlled air conditioner;

图7为所述控温空调中控制器的组成示意图；7 is a schematic diagram of the composition of a controller in the temperature-controlled air conditioner;

图8为所述控温空调中摆动组件的结构示意图。FIG. 8 is a schematic structural diagram of a swing assembly in the temperature-controlled air conditioner.

具体实施方式detailed description

下面将详细地对实施例进行说明，其示例表示在附图中。下面的描述涉及附图时，除非另有表示，不同附图中的相同数字表示相同或相似的要素。以下实施例中描述的实施方式并不代表与本申请相一致的所有实施方式。仅是与权利要求书中所详述的、本申请的一些方面相一致的***和方法的示例。Embodiments will be described in detail below, examples of which are illustrated in the accompanying drawings. Where the following description refers to the drawings, the same numerals in different drawings refer to the same or similar elements unless otherwise indicated. The implementations described in the following examples are not intended to represent all implementations consistent with this application. are merely exemplary of systems and methods consistent with some aspects of the present application as recited in the claims.

壁挂式空调已经成为每个家庭的必备品，参见图1，图1为家用壁挂式空调的场景示意图，室内的空气在贯流风扇的作用下进入到室内机中，经换热器换热后从下面的排风口出风，但因空调内部仅有一个贯流风扇，导致无法向多个方向分向送风，而且，不同的用户可能对于送风速度和送风温度有不同的要求，例如，在同一房间的不同位置有甲和乙两个人，甲希望高速送风，乙希望低速送风，但由于现有的大多数壁挂式空调只有一个贯流风扇，无法同时满足高速和低速送风的需求，而且，当用户设定好目标温度和送风风向后，空调也不会再改变温度、风速和风向。Wall-mounted air conditioners have become a must for every family. See Figure 1. Figure 1 is a schematic diagram of a home wall-mounted air conditioner. The indoor air enters the indoor unit under the action of the cross-flow fan, and exchanges heat through the heat exchanger. Afterwards, the air is discharged from the air outlet below, but because there is only one cross-flow fan inside the air conditioner, the air cannot be distributed in multiple directions. Moreover, different users may have different requirements for the air supply speed and air supply temperature. For example, there are two people A and B in different positions in the same room, A wants high-speed air supply, and B wants low-speed air supply, but since most existing wall-mounted air conditioners only have one cross-flow fan, they cannot satisfy both high-speed and low-speed air. The demand for air supply, and, after the user sets the target temperature and air supply direction, the air conditioner will not change the temperature, wind speed and wind direction.

参见图2，图2为本申请提供的一种自动调节风向和风速的控温空调结构示意图，一种自动调节风向和风速的控温空调，包括：Referring to FIG. 2, FIG. 2 is a schematic structural diagram of a temperature-controlled air conditioner that automatically adjusts the wind direction and wind speed provided by the application, and a temperature-controlled air conditioner that automatically adjusts the wind direction and wind speed, including:

空调机体10，即整个空调的外部壳体，一般与墙面接触并悬挂于墙壁上。The air conditioner body 10, that is, the outer casing of the entire air conditioner, is generally in contact with the wall and is hung on the wall.

面罩20，设置在空调机体10的外表面，这里的外表面是指空调背向墙壁的方向，面罩20相当于给空调设置了一个外罩，把内部运转的部件保护起来。The mask 20 is arranged on the outer surface of the air conditioner body 10, where the outer surface refers to the direction that the air conditioner faces away from the wall. The mask 20 is equivalent to providing a cover for the air conditioner to protect the internal operating components.

两个横向同轴的贯流风扇30，内置于空调机体10，参见图3，图3为所述控温空调中贯流风扇的结构示意图，两个贯流风扇30的大小和长度可以相同，也可以不同，每个单独的贯流风扇30包括旋转轴301、旋转叶片302，旋转轴301贯穿贯流风扇30，旋转叶片302均匀分布在旋转轴301的表面，两个贯流风扇30之间设置有风扇隔板303，两个贯流风扇30的旋转轴301在同一条直线上，两个旋转轴301均与风扇隔板303可拆卸转动连接，以使两个贯流风扇30各自独立，即，两个贯流风扇30可以同时旋转，也可以其中的一个旋转。Two laterally coaxial cross-flow fans 30 are built into the air conditioner body 10. Referring to FIG. 3, FIG. 3 is a schematic diagram of the structure of the cross-flow fans in the temperature-controlled air conditioner. The sizes and lengths of the two cross-flow fans 30 may be the same. It can also be different, each individual cross-flow fan 30 includes a rotating shaft 301 and rotating blades 302 , the rotating shaft 301 runs through the cross-flow fan 30 , and the rotating blades 302 are evenly distributed on the surface of the rotating shaft 301 between the two cross-flow fans 30 . A fan baffle 303 is provided, the rotating shafts 301 of the two cross-flow fans 30 are on the same straight line, and the two rotating shafts 301 are detachably and rotatably connected to the fan baffle 303, so that the two cross-flow fans 30 are independent of each other, That is, the two cross-flow fans 30 may be rotated at the same time, or one of them may be rotated.

两个横向同轴的贯流风扇30的两端还设置有两个风扇电机31，由图3可见，风扇电机31与两个贯流风扇30驱动连接，风扇电机31设置在两个贯流风扇30的两端，假设把两个贯流风扇30看似一个整体，两个风扇电机31的输出端分别与这个整体的两端驱动连接，具体地，风扇电机31的输出端与旋转轴301驱动连接，通过风扇电机31的输出端带动旋转轴301转动，以使风扇电机31运作时，旋转轴301带动贯流风扇30旋转。两个风扇电机31可以同时运行，也可以单独运行，同时运行时，驱动两个贯流风扇30同时转动，即同时送风，单独运行时，使得与风扇电机31驱动连接的贯流风扇30单独运行，即，一个风扇单独送风，另一个停止送风。同时，两个风扇电机31也可以设置不同的转速，当两个风扇电机31转速相同时，对应的两个贯流风扇30送风强度相同，当两个风扇电机31转速不同时，对应的两个贯流风扇30转速也不同，转速快的对应较强的风，转速慢的对应较弱的风。空调实际部署过程中，两个贯流风扇30的两端还可以设置有类似挡板的限位件，下方还可以设置有托架等，这些均属本领域技术人员所悉知的，本申请不再详述。Two laterally coaxial cross-flow fans 30 are also provided with two fan motors 31 at both ends. As can be seen from FIG. 3 , the fan motors 31 are drivingly connected to the two cross-flow fans 30 , and the fan motors 31 are arranged on the two cross-flow fans. At both ends of 30, it is assumed that the two cross-flow fans 30 are regarded as a whole, and the output ends of the two fan motors 31 are respectively drivingly connected to the two ends of the whole. Specifically, the output ends of the fan motors 31 are driven by the rotating shaft 301. The output end of the fan motor 31 drives the rotating shaft 301 to rotate, so that when the fan motor 31 operates, the rotating shaft 301 drives the cross-flow fan 30 to rotate. The two fan motors 31 can run at the same time or independently. When running at the same time, the two cross-flow fans 30 are driven to rotate at the same time, that is, to supply air at the same time. Running, i.e., one fan is supplying air alone and the other is stopped. At the same time, the two fan motors 31 can also be set at different rotational speeds. When the rotational speeds of the two fan motors 31 are the same, the corresponding two cross-flow fans 30 have the same air supply intensity. When the rotational speeds of the two fan motors 31 are different, the corresponding two The rotational speed of each cross-flow fan 30 is also different, the fast rotational speed corresponds to stronger wind, and the slow rotational speed corresponds to weaker wind. In the actual deployment process of the air conditioner, the two ends of the two cross-flow fans 30 may also be provided with stoppers similar to baffles, and brackets and the like may also be provided below, all of which are known to those skilled in the art. No further details.

两个横向导风板40，并排设置于空调机体10的外表面，设置于面罩20的底部，参见图4，图4为所述控温空调中导风板的结构示意图，每个导风板40包括两个转动轴401，两个转动轴401设置在沿导风板40水平方向的两侧，一侧的转动轴401***空调机体10的安装轴孔中(安装轴孔在图中未示出，此安装轴孔可以是空调机体10上预先留出的与转动轴401配合的轴孔)，另一侧的转动轴401***到两个横向导风板40之间的语音控制盒80的轴孔801中，结合图2与图4，语音控制盒80设置在两个导风板40之间，语音控制盒80两侧设置有轴孔801，转动轴401与靠近转动轴401的轴孔801相配合。两个横向导风板40与两个贯流风扇30的位置相对应，即，两个横向导风板40在位置上遮挡了两个贯流风扇30，当两个转动轴401在于其配合的轴孔801及空调机体10的安装轴孔内转动时，导风板40随之转动，以调节对应的贯流风扇30在竖直方向上的出风方向。Two transverse wind deflectors 40 are arranged side by side on the outer surface of the air conditioner body 10, and are arranged on the bottom of the mask 20, see FIG. 4, FIG. 40 includes two rotating shafts 401, the two rotating shafts 401 are arranged on both sides along the horizontal direction of the air guide plate 40, and the rotating shaft 401 on one side is inserted into the installation shaft hole of the air conditioner body 10 (the installation shaft hole is not shown in the figure). The mounting shaft hole can be a shaft hole reserved in advance on the air conditioner body 10 to cooperate with the rotating shaft 401), and the rotating shaft 401 on the other side is inserted into the voice control box 80 between the two lateral air guide plates 40. In the shaft hole 801, in conjunction with FIG. 2 and FIG. 4, the voice control box 80 is arranged between the two air guide plates 40, the voice control box 80 is provided with shaft holes 801 on both sides, the rotating shaft 401 and the shaft hole close to the rotating shaft 401 801 to match. The positions of the two transverse air deflectors 40 correspond to the positions of the two cross-flow fans 30 , that is, the two transverse air deflectors 40 cover the two cross-flow fans 30 in position. When the shaft hole 801 and the installation shaft hole of the air conditioner body 10 rotate, the wind deflector 40 rotates accordingly, so as to adjust the air outlet direction of the corresponding cross-flow fan 30 in the vertical direction.

两个横向出风口50，每个横向出风口50设置于贯流风扇30与导风板40之间，用于使贯流风扇30旋转产生的风从此排出。Two lateral air outlets 50, each of which is disposed between the cross-flow fan 30 and the air guide plate 40, is used to discharge the wind generated by the rotation of the cross-flow fan 30 therefrom.

智能探测机构60，嵌设于面罩20的表面，与语音控制盒80电连接，参见图5，图5为所述控温空调中智能探测机构嵌设于面罩的侧面结构示意图，智能探测机构60整体结构为中空的四分之一球体，可以想象成将球体切割成四份，取一份将内部挖空，留有一定厚度，即是智能探测机构60的整体外部结构，由图5可见，智能探测机构60一部分嵌设于面罩20内部，另一部分外露，中空的结构一方面保证了其内部可以容置其他部件，另一方面也不破坏空调整体的美观性。智能探测机构60被配置为监测室内环境信息，室内环境信息包括室内用户的体表温度、用户地理位置信息及用户与壁挂式空调也即空调机体10的距离。智能探测机构60嵌设于面罩20的表面，相当于设置于空调机体10的正中央， 能够全方位无死角的监测到室内环境信息。The intelligent detection mechanism 60 is embedded on the surface of the mask 20 and is electrically connected to the voice control box 80. Referring to FIG. 5, FIG. 5 is a schematic side view of the intelligent detection mechanism embedded in the mask in the temperature-controlled air conditioner. The intelligent detection mechanism 60 The overall structure is a hollow quarter sphere. It can be imagined that the sphere is cut into four parts, and one part is taken to hollow out the interior, leaving a certain thickness, that is, the overall external structure of the intelligent detection mechanism 60, as can be seen from Figure 5, A part of the intelligent detection mechanism 60 is embedded inside the mask 20, and the other part is exposed. The hollow structure on the one hand ensures that other components can be accommodated inside, on the other hand, does not damage the overall aesthetics of the air conditioner. The intelligent detection mechanism 60 is configured to monitor indoor environment information, and the indoor environment information includes the body surface temperature of the indoor user, the user's geographic location information, and the distance between the user and the wall-mounted air conditioner, that is, the air conditioner body 10 . The intelligent detection mechanism 60 is embedded in the surface of the mask 20 , which is equivalent to being disposed in the center of the air conditioner body 10 , and can monitor the indoor environment information in all directions without dead ends.

参见图6，图6为所述控温空调中智能探测机构正面的结构示意图，智能探测机构60包括半球容置槽601以及内置于半球容置槽601的可旋转摄像组件602、红外探测组件603，可旋转摄像组件602与红外探测组件603电连接。半球容置槽601即是智能探测机构60的外部结构，半球容置槽601包括底座6011和半球遮罩6012，底座6011和半球遮罩6012形成半球形中空的容置空间，可旋转摄像组件602以及红外探测组件603内置于此容置空间。结合图5，半球遮罩6012远离面罩20的一侧为弧形结构，这种结构既可以对置于内部的可旋转摄像组件602和红外探测组件603进行保护，同时也可以防止灰层落入。Referring to FIG. 6, FIG. 6 is a schematic structural diagram of the front surface of the intelligent detection mechanism in the temperature-controlled air conditioner. The intelligent detection mechanism 60 includes a hemisphere accommodating groove 601, a rotatable camera assembly 602 and an infrared detection assembly 603 built in the hemisphere accommodating groove 601. , the rotatable camera assembly 602 is electrically connected with the infrared detection assembly 603 . The hemisphere accommodating groove 601 is the external structure of the intelligent detection mechanism 60. The hemisphere accommodating groove 601 includes a base 6011 and a hemispherical cover 6012. The base 6011 and the hemispherical cover 6012 form a hemispherical hollow accommodating space, and the camera assembly 602 can be rotated. And the infrared detection component 603 is built in the accommodating space. Referring to FIG. 5 , the side of the hemispherical cover 6012 away from the mask 20 is an arc-shaped structure. This structure can not only protect the rotatable camera assembly 602 and the infrared detection assembly 603 placed inside, but also prevent the ash layer from falling into .

具体地，可旋转摄像组件602包括摄像组件支撑杆6021、摄像头外罩6022以及可旋转球形摄像头6023，摄像组件支撑杆6021一端与底座6011固定连接，另一端与摄像头外罩6022固定连接，即，可旋转摄像组件602通过摄像组件支撑杆6021固定连接在底座6011上，底座6011支撑摄像组件支撑杆6021，摄像组件支撑杆6021支撑摄像头外罩6022，可旋转球形摄像头6023与摄像头外罩6022球铰接，以使可旋转球形摄像头6023在摄像头外罩6022内旋转。可旋转摄像组件602用于监测是否有人存在，通过可旋转球形摄像头6023智能监测当前环境内是否有人，因其摄像头可旋转，所以可以全方位的查看各个角落，当监测结果为有人存在时，可旋转球形摄像头6023转向有人的方向，同时拍摄人员图像，根据拍摄的图像识别人员类别。例如，在房间内的床上有人，当可旋转球形摄像头6023监测到有人存在后，转向床的方向并拍摄人员图片，通过分析后，识别出当前人员类别为儿童，将此识别信息发送至红外探测组件603与调节控制器70。当环境内只有1人时，可旋转球形摄像头6023只转向此人并拍摄此人照片即可，当环境内有多人时，可旋转球形摄像头6023可按预设规则进行监测与拍照，例如，预设规则可以为，从上到下或从左至右等，有多人的情况下，拍摄多人的照片并对多人的类别分别进行识别。通过可旋转摄像组件602自动监测是否有人存在，当监测到有人存在时，调节控制器70控制可旋转摄像组件602将监测结果发送至红外探测组件603，红外探测组件603接收监测结果，探测人员体表体温、人员所在位置以及人员距离空调机体10的距离。Specifically, the rotatable camera assembly 602 includes a camera assembly support rod 6021, a camera cover 6022, and a rotatable spherical camera 6023. One end of the camera assembly support rod 6021 is fixedly connected to the base 6011, and the other end is fixedly connected to the camera cover 6022, that is, rotatable. The camera assembly 602 is fixedly connected to the base 6011 through the camera assembly support rod 6021, the base 6011 supports the camera assembly support rod 6021, the camera assembly support rod 6021 supports the camera cover 6022, and the rotatable spherical camera 6023 is spherically hinged with the camera cover 6022, so that the camera cover 6022 can be rotated. The rotating spherical camera 6023 rotates within the camera housing 6022. The rotatable camera assembly 602 is used to monitor whether someone exists. The rotatable spherical camera 6023 can intelligently monitor whether there is someone in the current environment. Because the camera can be rotated, it can view all corners in all directions. When the monitoring result is that someone exists, it can be The rotating spherical camera 6023 turns to the direction of the person, and at the same time captures the image of the person, and recognizes the category of the person according to the captured image. For example, if there is someone on the bed in the room, when the rotatable spherical camera 6023 detects the presence of someone, it turns to the direction of the bed and takes a picture of the person. After analysis, it identifies that the current person is a child, and sends this identification information to the infrared detector. Component 603 and regulation controller 70 . When there is only one person in the environment, the rotatable spherical camera 6023 can only turn to this person and take a photo of this person. When there are many people in the environment, the rotatable spherical camera 6023 can monitor and take pictures according to preset rules, for example, The preset rule may be, from top to bottom or from left to right, etc. In the case of multiple people, take photos of multiple people and identify the categories of the multiple people. The rotatable camera assembly 602 is used to automatically monitor whether there is a person. When the presence of a person is detected, the adjustment controller 70 controls the rotatable camera assembly 602 to send the monitoring results to the infrared detection assembly 603. The infrared detection assembly 603 receives the monitoring results and detects the human body. Table temperature, the location of the person, and the distance of the person from the air conditioner body 10 .

继续参见图6，红外探测组件603包括探测组件支撑架6031、红外接收仪6032以及红外探测仪6033，探测组件支撑架6031底部与底座6011固定连接，顶部与红外接收仪6032固定连接，探测组件支撑架6031支撑红外接收仪6032，红外探测仪6033与红外接收仪6032电连接。前面介绍过，可旋转球形摄像头6023监测到当前环境内有人存在后，识别出人员类别。将此识别信息发送至红外探测组件603，由红外接收仪6032接收该识别信息，同时触发红外探测仪6033朝向有人的方向监测人员体表温度、人员地理位置以及人员与空调机体10的距离，并将这些监测结果发送至调节控制器70。Continuing to refer to FIG. 6, the infrared detection assembly 603 includes a detection assembly support frame 6031, an infrared receiver 6032 and an infrared detector 6033. The bottom of the detection assembly support frame 6031 is fixedly connected to the base 6011, the top is fixedly connected to the infrared receiver 6032, and the detection assembly supports The frame 6031 supports the infrared receiver 6032 , and the infrared detector 6033 is electrically connected to the infrared receiver 6032 . As described above, the rotatable spherical camera 6023 recognizes the category of the person after detecting the existence of a person in the current environment. This identification information is sent to the infrared detection component 603, and the infrared receiver 6032 receives the identification information, and at the same time triggers the infrared detector 6033 to monitor the body surface temperature of the person, the geographical position of the person, and the distance between the person and the air conditioner body 10, and These monitoring results are sent to the regulation controller 70 .

调节控制器70，内置于空调机体10，与贯流风扇30、智能探测机构60以及语音控制盒80电连接，用于根据监测到的信息或接收到的语音指令对空调的风速与风向进行自动调节。参见图7，图7为所述控温空调中控制器的组成示意图，调节控制器70配置有人体识别模块701、感温模块702、调温控温模块703、风向调整模块704以及风速调整模块705，调节控制器70的各个模块分别被配置为；The adjustment controller 70 is built in the air conditioner body 10, and is electrically connected to the cross-flow fan 30, the intelligent detection mechanism 60 and the voice control box 80, and is used to automatically control the wind speed and direction of the air conditioner according to the monitored information or the received voice commands. adjust. Referring to FIG. 7, FIG. 7 is a schematic diagram of the composition of the controller in the temperature control air conditioner. The adjustment controller 70 is configured with a human body identification module 701, a temperature sensing module 702, a temperature adjustment and temperature control module 703, a wind direction adjustment module 704 and a wind speed adjustment module. 705, each module of the adjustment controller 70 is respectively configured as;

人体识别模块701，用于识别是否有人存在，当监测结果为有人存在时，拍摄人员图像，根据图像信息判别人员类别，记录人员位置信息。具体地，调节控制器70控制可旋 转球形摄像头6023拍摄人员图像，人体识别模块(701)根据人员图像信息识别人员类别并将识别结果发送至调节控制器70，调节控制器70控制红外接收仪6032接收该识别信息，同时，控制红外探测仪6033实时监测人员位置信息。The human body recognition module 701 is used to identify whether there is a person, and when the monitoring result is that there is a person, shoot an image of the person, determine the category of the person according to the image information, and record the location information of the person. Specifically, the adjustment controller 70 controls the rotatable spherical camera 6023 to take images of persons, and the human body recognition module (701) identifies the category of persons according to the information of the persons images and sends the identification result to the adjustment controller 70, and the adjustment controller 70 controls the infrared receiver 6032 The identification information is received, and at the same time, the infrared detector 6033 is controlled to monitor the personnel position information in real time.

感温模块702，用于监测不同人员的体表体温。具体地，当人体识别模块701监测到有人存在时，将监测结果与人员位置信息发送至调节控制器70，调节控制器70控制感温模块702监测并记录人员的体表体温。当环境内有多个人员时，感温模块702根据人体识别模块701提供的人员类别与人员位置分别对不同的人员监测体表体温并记录，例如，本实施例以当前环境为某一房间为例，当房间内有两个人时，通过人体识别模块701识别得到的信息为，一个人为老人，另一个为儿童，通过感温模块702监测，老人的实际体表体温为36.6，儿童的实际体表体温为36.8，感温模块702将监测结果发送至调温控温模块703。The temperature sensing module 702 is used to monitor the body surface temperature of different persons. Specifically, when the human body recognition module 701 detects the presence of a person, it sends the monitoring result and the person's position information to the adjustment controller 70, and the adjustment controller 70 controls the temperature sensing module 702 to monitor and record the body temperature of the person. When there are multiple persons in the environment, the temperature sensing module 702 monitors and records the body surface temperature of different persons according to the category and location of the persons provided by the human body recognition module 701. For example, in this embodiment, the current environment is a room as the For example, when there are two people in the room, the information identified by the human body recognition module 701 is that one is an elderly person and the other is a child. The temperature sensing module 702 monitors the actual body temperature of the elderly person to be 36.6, and the actual body temperature of the child is 36.6. The temperature of the watch is 36.8, and the temperature sensing module 702 sends the monitoring result to the temperature regulation and temperature control module 703 .

调温控温模块703，用于将不同人员的体表体温与阈值体温进行对比，根据不同人员生成对应的体温对比结果。感温模块702将不同人员体温监测结果发送至调温控温模块703后，调温控温模块703将接收到的不同人员的体温与预设的阈值体温进行对比，不同人员可以对应不同的阈值体温，例如，老人的阈值体温为36.5，儿童的阈值体温为36.4，通过对比发现，老人与儿童的实际体温都比阈值体温要高一些，说明当前房间内体表舒适感并不是最佳状态，会有点热，此时调温控温模块703会根据人体识别模块701监测到的人员位置信息自动匹配出距离人员比较近的贯流风扇30，可实现一个贯流风扇30单独出风，也可以两个贯流风扇30同时出风，根据预先定义的规则匹配适合的贯流风扇30，例如，可按照距离最近匹配原则，当房间内人员聚集在一个方向时，控制离人员最近的贯流风扇30单独出风，当房间内人员不在同一个方向时，如，在房间的两侧，此时可以两个贯流风扇30同时出风。也就是说，调温控温模块703会实时监测人员体表温度，使空调在运行状态下始终保证人体体感处于舒适的状态，例如，目前家用的空调吹久了会很冷，空调也不会自动调节温度，风力也不会改变，而本申请空调通过实时监测人员体表体温，当监测到体表体温下降或低于阈值时，会自动调节温度，降低人体的不适感。The temperature regulation and temperature control module 703 is used to compare the body surface temperature of different persons with the threshold body temperature, and generate corresponding body temperature comparison results according to different persons. After the temperature sensing module 702 sends the body temperature monitoring results of different people to the temperature regulation and temperature control module 703, the temperature regulation and temperature control module 703 compares the received body temperature of different people with the preset threshold body temperature, and different people can correspond to different thresholds Body temperature, for example, the threshold body temperature of the elderly is 36.5, and the threshold body temperature of children is 36.4. Through comparison, it is found that the actual body temperature of the elderly and children is higher than the threshold body temperature, indicating that the comfort of the body surface in the current room is not optimal. It will be a little hot. At this time, the temperature adjustment and temperature control module 703 will automatically match the cross-flow fan 30 that is closer to the person according to the personnel position information monitored by the human body recognition module 701, so that one cross-flow fan 30 can be used to discharge air alone, or it can be The two cross-flow fans 30 emit air at the same time, and the appropriate cross-flow fans 30 are matched according to predefined rules. For example, according to the principle of closest matching, when people in the room gather in one direction, the cross-flow fan closest to the person can be controlled. 30 separates the air, and when the people in the room are not in the same direction, for example, on both sides of the room, the two cross-flow fans 30 can emit the air at the same time. That is to say, the temperature adjustment and temperature control module 703 will monitor the body surface temperature of the personnel in real time, so that the air conditioner can always ensure that the human body is in a comfortable state. The temperature is automatically adjusted, and the wind power will not change, and the air conditioner of the present application monitors the body temperature of the personnel in real time. When the monitored body temperature drops or falls below the threshold, it will automatically adjust the temperature to reduce the discomfort of the human body.

风向调整模块704，用于根据人员位置信息调整风向。房间内人员并不是静止不动的，当人员走动时，人体识别模块701会识别到人员的位置，风向调整模块704根据人员的位置信息实时调整风向，例如，人员之前在房间的一侧，调温控温模块703已匹配出距离最近的贯流风扇30，随后人员走向了房间的另一侧，此时风向调整模块704可重新计算距离并匹配出最近的贯流风扇30，关闭离人员较远的贯流风扇30，这样在没有人员的地方就可以节约一部分电能，防止不必要的能源浪费。The wind direction adjustment module 704 is used to adjust the wind direction according to the personnel position information. The people in the room are not stationary. When the person moves, the human body recognition module 701 will recognize the position of the person, and the wind direction adjustment module 704 adjusts the wind direction in real time according to the position information of the person. The temperature control module 703 has matched the closest cross-flow fan 30, and then the person walks to the other side of the room. At this time, the wind direction adjustment module 704 can recalculate the distance and match the nearest cross-flow fan 30, and close the closest cross-flow fan 30. The remote cross-flow fan 30 can save a part of electric energy in places where there are no personnel, and prevent unnecessary energy waste.

风速调整模块705，用于根据人员类别和体温对比结果调整风速。不同人员对风速的需求可能会不同，例如老人和孩子可能需要风力较小的、温和的风，普通成人可能需要风力较大的、强劲的风，风速调整模块705会根据不同的需求进行风速的调配，因为两个贯流风扇30是独立运作的，所以当其中的一个贯流风扇30转速较快时，出风就比较强劲，转速较慢时，出风就比较温和，当人体识别模块701识别到有不同的人员类型时，可以根据预先制定的规则出风，例如，当识别中房间内有老人和孩子时，出风比较温和，当识别出房间内无老人和孩子时，正常出风或强劲出风，以满足不同人群的需求。The wind speed adjustment module 705 is used to adjust the wind speed according to the comparison result of the personnel category and body temperature. Different people may have different needs for wind speed. For example, the elderly and children may need mild wind with less wind, while ordinary adults may need strong and strong wind. The wind speed adjustment module 705 will adjust the wind speed according to different needs. Allocation, because the two cross-flow fans 30 operate independently, when one of the cross-flow fans 30 rotates at a faster speed, the air outlet is relatively strong, and when the speed is slow, the air outlet is relatively mild. When the human body recognition module 701 When different types of people are identified, the wind can be released according to the pre-established rules. For example, when there are elderly people and children in the identified room, the wind is relatively mild, and when it is identified that there are no elderly and children in the room, the wind is normally released. Or strong wind to meet the needs of different groups of people.

语音控制盒80，用于识别用户发出的语音指令并将识别后的语音指令发送至调节控制 器70，调节控制器70接收识别后的语音指令并控制各个模块响应所述语音指令。例如，用户可语音控制空调开机、关机，开机时，空调开启自动调节风向和风速的控温模式，关机时，停止上述调节模式。用户还可以语音控制空调调整风向和风速等，如语音指令可以为“调大风速、调小风速、升高温度、降低温度、上下扫风、左右扫风、静音、定时关机等”，语音控制可以更直接、快速的对空调进行操控，比用遥控器更加方便快捷，同时也免去了找不到空调遥控器时，无法进行模式选择的烦恼。需要说明的是，语音控制盒80设置在两个导风板40之间，两侧设置有轴孔801，在不影响空调外观的情况下并没有额外增加其他装置，一方面实现了语音控制的功能，另一方面不影响导风板40的安装，使得壁挂式空调功能更齐全、整体结构更加紧凑。The voice control box 80 is used to recognize the voice command issued by the user and send the recognized voice command to the adjustment controller 70, and the adjustment controller 70 receives the recognized voice command and controls each module to respond to the voice command. For example, the user can control the air conditioner to turn on and off by voice. When the air conditioner is turned on, the air conditioner starts the temperature control mode that automatically adjusts the wind direction and speed, and when the air conditioner is turned off, the above adjustment mode is stopped. Users can also voice control the air conditioner to adjust the wind direction and wind speed. It can control the air conditioner more directly and quickly, which is more convenient and quicker than using the remote control, and also avoids the trouble of not being able to select the mode when the remote control of the air conditioner cannot be found. It should be noted that the voice control box 80 is arranged between the two air guide plates 40, and the shaft holes 801 are arranged on both sides. No additional devices are added without affecting the appearance of the air conditioner. On the other hand, the installation of the wind deflector 40 is not affected, so that the wall-mounted air conditioner has more complete functions and a more compact overall structure.

参见图8，图8为所述控温空调中摆动组件的结构示意图，两组摆动组件32设置于两个横向出风口50的内侧，与两个横向出风口50对应设置，摆动组件32包括摆动轴321和若干摆叶322，摆动轴321横向内置于空调机体10，摆叶322可摆动的设置于摆动轴321上。两组摆叶322横向上与两个贯流风扇30位置相对应，以使摆叶322为贯流风扇30提供导风功能。两组摆动组件32各自独立，每组摆动组件32还配置有与其驱动连接的摆叶电机323，摆叶电机323驱动摆动轴321可沿自身长度方向运动，若干摆叶322可随着摆动轴321的横向运动而左右摆动。当摆叶322向左侧摆动时，贯流风扇30向左侧出风，当摆叶322向右侧摆动时，贯流风扇30向右侧出风。在摆叶电机323的驱动下，两组摆动组件32可以同时向两侧摆，以增加送风面积，也可以同时向内侧摆，以使两个贯流风扇30在中间区域形成融合风，增加用户的舒适度，进一步丰富了送风模式，提高了用户的体验感。Referring to FIG. 8 , FIG. 8 is a schematic structural diagram of the swing assembly in the temperature-controlled air conditioner. Two sets of swing assemblies 32 are disposed inside the two lateral air outlets 50 , corresponding to the two lateral air outlets 50 , and the swing assembly 32 includes swing A shaft 321 and a plurality of swing blades 322 are provided. The swing shaft 321 is laterally built into the air conditioner body 10 , and the swing blades 322 are swingably arranged on the swing shaft 321 . The two sets of swing blades 322 correspond to the positions of the two cross-flow fans 30 in the lateral direction, so that the swing blades 322 provide the cross-flow fan 30 with an air guiding function. The two groups of swing assemblies 32 are independent of each other, and each group of swing assemblies 32 is also equipped with a swing vane motor 323 that is drivingly connected to it. side-to-side movement. When the swing blade 322 swings to the left, the cross-flow fan 30 blows out to the left, and when the swing blade 322 swings to the right, the cross-flow fan 30 blows out to the right. Driven by the swing vane motor 323, the two groups of swing assemblies 32 can swing to both sides at the same time to increase the air supply area, or they can swing inward at the same time, so that the two cross-flow fans 30 form a fusion air in the middle area, increasing the air supply area. The user's comfort level further enriches the air supply mode and improves the user's experience.

由以上技术方案可知，本申请提供了一种自动调节风向和风速的控温空调，包括空调机体10、设置在所述空调机体10外表面的面罩20、内置于所述空调机体10的两个横向同轴的贯流风扇30、并排设置于所述空调机体10外表面的两个横向导风板40、设置于所述贯流风扇30与所述导风板40之间的两个横向出风口50、嵌设于所述面罩20表面的智能探测机构60以及内置于所述空调机体10的调节控制器70，智能探测机构60用于监测当前环境是否有人存在，如果有人，识别出人员类别，同时监测人员体表温度、人员地理位置以及人员与空调机体10的距离，并将这些监测结果发送至调节控制器70，调节控制器70根据监测结果将不同人员的体表体温与阈值体温进行对比，根据不同人员生成对应的体温对比结果，调节控制器70结合对比结果通过控制贯流风扇30的转速和出风方向，实现风向、风速及温度的调节，以使室内送风更加智能化、人性化。It can be seen from the above technical solutions that the present application provides a temperature-controlled air conditioner that automatically adjusts the wind direction and speed, including an air conditioner body 10 , a mask 20 arranged on the outer surface of the air conditioner body 10 , and two built-in air conditioner body 10 . The transversely coaxial cross-flow fan 30 , the two transverse wind deflectors 40 arranged side by side on the outer surface of the air conditioner body 10 , and the two transverse outlet plates 40 arranged between the cross-flow fan 30 and the wind deflector 40 . The air vent 50, the intelligent detection mechanism 60 embedded in the surface of the mask 20, and the adjustment controller 70 built into the air conditioner body 10, the intelligent detection mechanism 60 is used to monitor whether there is someone in the current environment, and if there is someone, identify the type of person , monitor the body surface temperature of the personnel, the geographical location of the personnel, and the distance between the personnel and the air conditioner body 10, and send these monitoring results to the adjustment controller 70. The adjustment controller 70 compares the body surface body temperature and the threshold body temperature of different personnel By comparison, the corresponding body temperature comparison results are generated according to different persons, and the adjustment controller 70 realizes the adjustment of the wind direction, wind speed and temperature by controlling the rotational speed and the air outlet direction of the cross-flow fan 30 in combination with the comparison results, so as to make the indoor air supply more intelligent and efficient. Humanize.

本申请提供的实施例之间的相似部分相互参见即可，以上提供的具体实施方式只是本申请总的构思下的几个示例，并不构成本申请保护范围的限定。对于本领域的技术人员而言，在不付出创造性劳动的前提下依据本申请方案所扩展出的任何其他实施方式都属于本申请的保护范围。Similar parts between the embodiments provided in the present application may be referred to each other. The specific embodiments provided above are just a few examples under the general concept of the present application, and do not constitute a limitation on the protection scope of the present application. For those skilled in the art, any other implementations expanded according to the solution of the present application without creative work fall within the protection scope of the present application.

Claims (10)

1. 一种自动调节风向和风速的控温空调，其特征在于，包括：A temperature-controlled air conditioner for automatically adjusting wind direction and wind speed, comprising:

   空调机体(10)；an air conditioner body (10);

   面罩(20)，设置在所述空调机体(10)的外表面；a mask (20), arranged on the outer surface of the air conditioner body (10);

   两个横向同轴的贯流风扇(30)，内置于所述空调机体(10)，所述贯流风扇(30)包括旋转轴(301)、旋转叶片(302)以及风扇隔板(303)，所述旋转轴(301)贯穿所述贯流风扇(30)，所述旋转叶片(302)均匀分布在所述旋转轴(301)的表面，所述风扇隔板(303)设置在两个所述贯流风扇(30)之间，以使两个所述贯流风扇(30)各自独立；Two laterally coaxial cross-flow fans (30) are built into the air conditioner body (10), and the cross-flow fans (30) include a rotating shaft (301), a rotating blade (302), and a fan partition (303) , the rotating shaft (301) runs through the cross-flow fan (30), the rotating blades (302) are evenly distributed on the surface of the rotating shaft (301), and the fan baffles (303) are arranged on two between the cross-flow fans (30), so that the two cross-flow fans (30) are independent;

   两个横向导风板(40)，并排设置于所述空调机体(10)的外表面，两个所述横向导风板(40)设置于所述面罩(20)的底部，两个所述横向导风板(40)遮挡两个所述贯流风扇(30)；Two transverse air guide plates (40) are arranged side by side on the outer surface of the air conditioner body (10), the two transverse air guide plates (40) are arranged at the bottom of the mask (20), and the two The transverse wind deflector (40) shields the two cross-flow fans (30);

   两个横向出风口(50)，每个所述横向出风口(50)设置于所述贯流风扇(30)与所述导风板(40)之间；two lateral air outlets (50), each of which is disposed between the cross-flow fan (30) and the wind deflector (40);

   智能探测机构(60)，嵌设于所述面罩(20)的表面，所述智能探测机构(60)包括半球容置槽(601)以及内置于所述半球容置槽(601)的可旋转摄像组件(602)、红外探测组件(603)，所述可旋转摄像组件(602)与所述红外探测组件(603)电连接；An intelligent detection mechanism (60) is embedded in the surface of the mask (20), the intelligent detection mechanism (60) comprises a hemisphere accommodating groove (601) and a rotatable accommodating groove (601) built into the hemisphere accommodating groove (601). a camera assembly (602), an infrared detection assembly (603), the rotatable camera assembly (602) is electrically connected to the infrared detection assembly (603);

   调节控制器(70)，内置于所述空调机体(10)，所述调节控制器(70)与所述贯流风扇(30)以及所述智能探测机构(60)电连接。An adjustment controller (70) is built in the air conditioner body (10), and the adjustment controller (70) is electrically connected with the cross-flow fan (30) and the intelligent detection mechanism (60).
2. 根据权利要求1所述的一种自动调节风向和风速的控温空调，其特征在于，所述半球容置槽(601)包括底座(6011)和半球遮罩(6012)，所述底座(6011)和所述半球遮罩(6012)形成半球形中空的容置空间，所述可旋转摄像组件(602)以及所述红外探测组件(603)内置于所述容置空间。The temperature-controlled air conditioner that automatically adjusts wind direction and wind speed according to claim 1, wherein the hemispherical accommodating groove (601) comprises a base (6011) and a hemispherical cover (6012), and the base (6011) ) and the hemispherical cover (6012) form a hemispherical hollow accommodating space, and the rotatable camera assembly (602) and the infrared detection assembly (603) are built in the accommodating space.
3. 根据权利要求2所述的一种自动调节风向和风速的控温空调，其特征在于，所述可旋转摄像组件(602)包括摄像组件支撑杆(6021)、摄像头外罩(6022)以及可旋转球形摄像头(6023)，所述摄像组件支撑杆(6021)一端与所述底座(6011)固定连接，另一端与所述摄像头外罩(6022)固定连接，所述底座(6011)支撑所述摄像组件支撑杆(6021)，所述摄像组件支撑杆(6021)支撑所述摄像头外罩(6022)，所述可旋转球形摄像头(6023)与所述摄像头外罩(6022)球铰接，以使所述可旋转球形摄像头(6023)在所述摄像头外罩(6022)内旋转。The temperature-controlled air conditioner that automatically adjusts wind direction and wind speed according to claim 2, wherein the rotatable camera assembly (602) comprises a camera assembly support rod (6021), a camera cover (6022) and a rotatable spherical A camera (6023), one end of the camera assembly support rod (6021) is fixedly connected to the base (6011), and the other end is fixedly connected to the camera cover (6022), the base (6011) supports the camera assembly A rod (6021), the camera assembly support rod (6021) supports the camera housing (6022), and the rotatable spherical camera (6023) is spherically hinged with the camera housing (6022), so that the rotatable spherical A camera (6023) rotates inside the camera housing (6022).
4. 根据权利要求2所述的一种自动调节风向和风速的控温空调，其特征在于，所述红外探测组件(603)包括探测组件支撑架(6031)、红外接收仪(6032)以及红外探测仪(6033)，所述探测组件支撑架(6031)底部与所述底座(6011)固定连接，顶部与所述红外接收仪(6032)固定连接，所述探测组件支撑架(6031)支撑所述红外接收仪(6032)，所述红外探测仪(6033)与所述红外接收仪(6032)电连接。A temperature-controlled air conditioner capable of automatically adjusting wind direction and wind speed according to claim 2, wherein the infrared detection assembly (603) comprises a detection assembly support frame (6031), an infrared receiver (6032) and an infrared detector (6033), the bottom of the detection assembly support frame (6031) is fixedly connected with the base (6011), and the top is fixedly connected with the infrared receiver (6032), and the detection assembly support frame (6031) supports the infrared receiver (6031). A receiver (6032), the infrared detector (6033) is electrically connected to the infrared receiver (6032).
5. 根据权利要求1所述的一种自动调节风向和风速的控温空调，其特征在于，还包括两个风扇电机(31)，两个所述风扇电机(31)设置于两个所述横向同轴的贯流风扇(30)的两端，所述风扇电机(31)与所述贯流风扇(30)驱动连接，所述风扇电机(31)的输出端与所述旋转轴(301)驱动连接，以使所述风扇电机(31)运转时，通过所述风扇电机(31)的输出端带动所述旋转轴(301)转动。The temperature-controlled air conditioner that automatically adjusts the wind direction and wind speed according to claim 1, further comprising two fan motors (31), the two fan motors (31) being arranged on the two horizontal Both ends of the cross-flow fan (30) of the shaft, the fan motor (31) is drivingly connected with the cross-flow fan (30), and the output end of the fan motor (31) is driven with the rotating shaft (301) connected, so that when the fan motor (31) is running, the output end of the fan motor (31) drives the rotating shaft (301) to rotate.
6. 根据权利要求1所述的一种自动调节风向和风速的控温空调，其特征在于，还包括语音控制盒(80)，所述语音控制盒(80)设置在两个所述导风板(40)之间，所述语音控制盒(80)与所述智能探测机构(60)、调节控制器(70)电连接，所述语音控制盒(80)两侧设置有轴孔(801)。A temperature control air conditioner capable of automatically adjusting wind direction and wind speed according to claim 1, further comprising a voice control box (80), wherein the voice control box (80) is arranged on two of the wind deflectors ( 40), the voice control box (80) is electrically connected with the intelligent detection mechanism (60) and the adjustment controller (70), and shaft holes (801) are provided on both sides of the voice control box (80).
7. 根据权利要求6所述的一种自动调节风向和风速的控温空调，其特征在于，每个所述导风板(40)包括两个转动轴(401)，所述两个转动轴(401)设置在沿所述导风板(40)水平方向的两侧，所述转动轴(401)与靠近所述转动轴(401)的轴孔(801)相配合。The temperature-controlled air conditioner capable of automatically adjusting wind direction and wind speed according to claim 6, wherein each of the wind deflectors (40) comprises two rotating shafts (401), and the two rotating shafts (401) ) are arranged on both sides along the horizontal direction of the wind deflector (40), and the rotating shaft (401) is matched with a shaft hole (801) close to the rotating shaft (401).
8. 根据权利要求1所述的一种自动调节风向和风速的控温空调，其特征在于，还包括与所述出风口(50)对应设置的两组摆动组件(32)，所述摆动组件(32)包括摆动轴(321)和若干摆叶(322)，所述摆动轴(321)横向内置于所述空调机体(10)，所述摆叶(322)可摆动的设置于所述摆动轴(321)上。The temperature-controlled air conditioner capable of automatically adjusting wind direction and wind speed according to claim 1, further comprising two sets of swing assemblies (32) corresponding to the air outlet (50), wherein the swing assemblies (32) ) includes a swing shaft (321) and a plurality of swing blades (322), the swing shaft (321) is laterally built into the air conditioner body (10), and the swing blades (322) are oscillatingly arranged on the swing shaft ( 321) on.
9. 根据权利要求1所述的一种自动调节风向和风速的控温空调，其特征在于，所述可旋转摄像组件(602)自动监测是否有人存在，调节控制器(70)控制所述可旋转摄像组件(602)将监测结果发送至所述红外探测组件(603)，所述红外探测组件(603)接收所述监测结果，探测人员体表体温、人员所在位置以及人员距离所述空调机体(10)的距离。A temperature-controlled air conditioner capable of automatically adjusting wind direction and wind speed according to claim 1, wherein the rotatable camera assembly (602) automatically monitors whether there is a person, and an adjustment controller (70) controls the rotatable camera The component (602) sends the monitoring result to the infrared detection component (603), and the infrared detection component (603) receives the monitoring result, detects the body surface temperature of the person, the location of the person, and the distance between the person and the air conditioner body (10). )the distance.
10. 根据权利要求1所述的一种自动调节风向和风速的控温空调，其特征在于，所述调节控制器(70)配置有人体识别模块(701)、感温模块(702)、调温控温模块(703)、风向调整模块(704)以及风速调整模块(705)；A temperature control air conditioner capable of automatically adjusting wind direction and wind speed according to claim 1, characterized in that the adjustment controller (70) is configured with a human body recognition module (701), a temperature sensing module (702), a temperature regulation and control module a temperature module (703), a wind direction adjustment module (704) and a wind speed adjustment module (705);

    所述人体识别模块(701)，用于识别是否有人存在，当监测结果为有人存在时，拍摄人员图像，根据所述图像信息判别人员类别，记录所述人员位置信息；The human body recognition module (701) is used to identify whether someone exists, and when the monitoring result is that someone exists, shoot an image of the person, discriminate the category of the person according to the image information, and record the location information of the person;

    所述感温模块(702)，用于监测不同人员的体表体温；the temperature sensing module (702) for monitoring the body surface temperature of different persons;

    所述调温控温模块(703)，用于将所述不同人员的体表体温与阈值体温进行对比，根据不同人员生成对应的体温对比结果；The temperature regulation and temperature control module (703) is configured to compare the body surface body temperature of the different personnel with the threshold body temperature, and generate a corresponding body temperature comparison result according to the different personnel;

    所述风向调整模块(704)，用于根据所述人员位置信息调整风向；the wind direction adjustment module (704), configured to adjust the wind direction according to the personnel position information;

    所述风速调整模块(705)，用于根据所述人员类别和所述体温对比结果调整风速。The wind speed adjustment module (705) is configured to adjust the wind speed according to the person category and the body temperature comparison result.

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