WO2021120596A1 - Base of air conditioner and air conditioner - Google Patents

Abstract

A base of an air conditioner, comprising: a base body (10); at least one convex structure (20), which is provided on the base body (10) below an air outlet (40) of the air conditioner, protrudes toward the air outlet (40), and is used to balance the wind pressure within an air duct of an air conditioner. Also provided is an air conditioner which comprises the described base. The described base of an air conditioner has the effect of reducing the production of condensation by means of providing a convex structure within an air duct so as to change the direction of part of the air flow.

Description

空调器的底座及空调器Base of air conditioner and air conditioner

本申请要求于2019年12月16日提交的中国专利申请第201911297406.X的优先权，该中国专利申请的全文通过引用的方式结合于此以作为本申请的一部分。This application claims the priority of Chinese patent application No. 201911297406.X filed on December 16, 2019, and the full text of the Chinese patent application is incorporated herein by reference as a part of this application.

技术领域Technical field

本公开实施例涉及一种空调器的底座及空调器。The embodiment of the present disclosure relates to a base of an air conditioner and the air conditioner.

背景技术Background technique

目前，空调器底座出风口附近的面板上容易凝结凝露水，长时间运行后凝露水可能会从面板上滴落到用户的家具和地板上，会导致用户体验较差，从而产生售后投诉。At present, condensation is prone to condensation on the panel near the air outlet of the air conditioner base. After a long period of operation, the condensation may drip from the panel to the user's furniture and floor, which will cause a poor user experience and cause after-sales complaints. .

发明内容Summary of the invention

本公开实施例解决的问题是减少空调器出风口凝露现象的出现，提升空调器产品使用的舒适度。The problem solved by the embodiments of the present disclosure is to reduce the occurrence of condensation at the air outlet of the air conditioner, and to improve the comfort of using the air conditioner product.

为解决上述问题，本公开实施例提供一种空调器的底座，包括：To solve the above-mentioned problem, an embodiment of the present disclosure provides a base of an air conditioner, including:

底座本体；Base body

至少一个凸包结构，设置于所述空调器的出风口下方的底座本体上，并向所述出风口的方向凸起，用于平衡所述空调器的风道内的风压。At least one convex hull structure is arranged on the base body below the air outlet of the air conditioner and protrudes in the direction of the air outlet to balance the wind pressure in the air duct of the air conditioner.

由此，通过将凸包结构设置在风道内，气流遇到凸包结构后上升，从而改变部分气流方向，平衡风道内的风压，起到减少凝露产生的作用。Therefore, by arranging the convex hull structure in the air duct, the air flow rises after encountering the convex hull structure, thereby changing the direction of part of the air flow, balancing the wind pressure in the air duct, and reducing condensation.

进一步的，所述凸包结构设置于风道的至少一侧，并且其靠近风道侧壁的一侧与所述风道侧壁之间的距离不超过第一预定距离；所述第一预定距离为20mm。Further, the convex hull structure is arranged on at least one side of the air duct, and the distance between the side close to the side wall of the air duct and the side wall of the air duct does not exceed a first predetermined distance; the first predetermined The distance is 20mm.

由于空调器出风面板上的凝露主要是左右侧风压不均衡引起的，因此通过凸包结构在靠近风道侧壁处，能够改善风道左右侧壁附近风压不均衡的问题，对风道内的气流起到导向作用，能够更好地改善出风口易结凝露状态。Since the condensation on the air outlet panel of the air conditioner is mainly caused by the unbalanced wind pressure on the left and right sides, the convex hull structure near the side wall of the air duct can improve the problem of the unbalanced wind pressure near the left and right side walls of the air duct. The air flow in the air duct plays a guiding role, which can better improve the easy condensation state of the air outlet.

进一步的，所述凸包结构的在底座本体上凸起部分的外表面包括至少一个曲面和/或至少一个斜面，所述曲面或斜面设置在面向所述出风口的一侧，且逐渐靠近底座本体。Further, the outer surface of the convex part of the convex hull structure on the base body includes at least one curved surface and/or at least one inclined surface, and the curved surface or the inclined surface is arranged on the side facing the air outlet and gradually approaches the base. Ontology.

通过凸包结构在底座本体上凸起部分的外表面采用曲面和/或斜面的组合，可以根据实际需要实现对气流方向的改变并实现平滑过渡，使出风气流逐渐上升，避免气流突变。The convex hull structure adopts a combination of curved surfaces and/or inclined surfaces on the outer surface of the convex part of the base body, which can realize the change of the airflow direction and achieve a smooth transition according to actual needs, so that the outflow airflow gradually rises and avoids sudden changes in the airflow.

进一步的，所述凸包结构在底座本体上方凸起的高度为3-10mm；和/或所述凸包结构在风道水平方向的长度为40-70mm；和/或所述凸包结构在风道出风方向上的宽度为30-60mm。Further, the height of the convex hull structure above the base body is 3-10mm; and/or the length of the convex hull structure in the horizontal direction of the air duct is 40-70mm; and/or the convex hull structure is The width of the air duct in the direction of the wind is 30-60mm.

根据不同型号空调器的底座的尺寸和位置，可以相应调整所述凸包结构的具体形状和尺寸。According to the size and position of the base of different models of air conditioners, the specific shape and size of the convex hull structure can be adjusted accordingly.

进一步的，所述凸包结构靠近所述出风口下方的底座本体的前沿的一侧与所述出风口下方的底座本体的前沿之间的距离不超过第二预定距离。所述第二预定距离为10mm。Further, the distance between the side of the convex hull structure close to the front edge of the base body below the air outlet and the front edge of the base body below the air outlet does not exceed a second predetermined distance. The second predetermined distance is 10 mm.

由此，可以实现气流充分导向，并且减少了对于出风的阻碍。As a result, the airflow can be fully guided, and the obstruction to the airflow can be reduced.

进一步的，所述凸包结构由靠近风道侧壁一侧向远离风道侧壁一侧逐渐减小。Further, the convex hull structure gradually decreases from the side close to the side wall of the air duct to the side away from the side wall of the air duct.

所述凸包结构自靠近风道侧壁一侧开始截面渐变的设置，逐渐实现与底座实现平滑过渡，由此，从远离风道侧壁一侧到靠近风道侧壁一侧，气流的导向作用逐步加强，使得出风更加顺畅。The convex hull structure starts from the side close to the side wall of the air duct, and gradually realizes a smooth transition with the base. As a result, the air flow is guided from the side far away from the side wall of the air duct to the side close to the side wall of the air duct. The role is gradually strengthened, making the wind smoother.

进一步的，所述底座还包括：Further, the base further includes:

保温板，设置于所述底座本体背向出风口的一面，所述保温板上设置有凸起结构，所述凸起结构与所述凸包结构在底座本体背面形成的凹槽的形状相适应，使得所述凸起结构与所述凸包结构配合定位。The heat preservation board is arranged on the side of the base body that faces away from the air outlet, and the heat preservation board is provided with a protruding structure, and the protruding structure is adapted to the shape of the groove formed by the protruding structure on the back of the base body , So that the convex structure and the convex hull structure are positioned in cooperation.

由此，通过凸包结构的背部呈现凹槽与保温板的凸起结构相互配合，实现对保温板进行精准定位，改变以往保温板随意安装的现象，加强保温隔热的效果，从而减少底座本体背部凝露的产生。As a result, the grooves on the back of the convex hull structure cooperate with the convex structure of the insulation board to achieve precise positioning of the insulation board, change the phenomenon of random installation of the insulation board in the past, and strengthen the effect of heat preservation and heat insulation, thereby reducing the base body Condensation on the back.

进一步的，所述凸包结构与底座本体为一体结构或分体结构。Further, the convex hull structure and the base body are an integral structure or a separate structure.

通过将凸包结构与底座设置为一体结构，可以减少零部件，提高装配效率；通过将凸包结构与底座设置为分体结构，有利于凸包结构的更换，适于 不同空调器机型底座的通配。By setting the convex hull structure and the base as an integral structure, parts can be reduced and the assembly efficiency can be improved; by setting the convex hull structure and the base as a separate structure, it is beneficial to the replacement of the convex hull structure and is suitable for the base of different air conditioner models. Of wildcards.

进一步的，所述凸包结构上设置有定位凸起，所述底座本体相应设置有与所述凸包结构的定位凸起配合的定位凹槽；或者Further, the convex hull structure is provided with positioning protrusions, and the base body is correspondingly provided with positioning grooves that cooperate with the positioning protrusions of the convex hull structure; or

所述凸包结构上设置有定位凹槽，所述底座本体相应设置有与所述凸包结构的定位凹槽配合的定位凸起。The convex hull structure is provided with positioning grooves, and the base body is correspondingly provided with positioning protrusions that cooperate with the positioning grooves of the convex hull structure.

通过设置定位组件，对凸包结构与底座本体的相对位置进行限定，进一步确保两者的安装位置准确且牢固。By providing positioning components, the relative positions of the convex hull structure and the base body are limited, and the installation positions of the two are further ensured to be accurate and firm.

进一步的，凸包结构与底座本体的连接方式包括：粘接和/或卡扣和/或螺钉连接。Further, the connection mode of the convex hull structure and the base body includes: bonding and/or buckle and/or screw connection.

进一步的，所述凸包与底座本体之间的结合面设置密封材料。Further, the joint surface between the convex hull and the base body is provided with a sealing material.

通过在凸包结构与底座本体的结合面黏贴密封材料，保证凸包结构与底座本体结合面紧密连接，防止漏风，从而能够确保凸包结构的导风效果，减少凝露的产生。By sticking the sealing material on the joint surface of the convex hull structure and the base body, the joint surface of the convex hull structure and the base body is ensured to be tightly connected to prevent air leakage, thereby ensuring the air guiding effect of the convex hull structure and reducing condensation.

进一步的，所述密封材料为海绵或胶体。Further, the sealing material is sponge or colloid.

根据本公开实施例的另一个方面，提供了一种空调器，所述空调器包括如前所述的空调器的底座。According to another aspect of the embodiments of the present disclosure, there is provided an air conditioner including the base of the air conditioner as described above.

所述空调器与前述空调器的底座的有益效果相同，此处不再赘述。The beneficial effects of the air conditioner and the base of the aforementioned air conditioner are the same, and will not be repeated here.

附图说明Description of the drawings

图1为本公开实施例空调器的底座的结构示意图；Fig. 1 is a schematic structural diagram of a base of an air conditioner in an embodiment of the disclosure;

图2a-2e为本公开实施例凸包结构横截面的形状示意图；2a-2e are schematic diagrams of the cross-sectional shape of the convex hull structure of the embodiment of the disclosure;

图3为本公开实施例一种凸包结构的示意图；3 is a schematic diagram of a convex hull structure according to an embodiment of the disclosure;

图4为本公开实施例底座背面的结构示意图；4 is a schematic diagram of the structure of the back of the base of the embodiment of the disclosure;

图5为本公开实施例保温泡沫板的结构示意图；Fig. 5 is a schematic structural diagram of an insulating foam board according to an embodiment of the disclosure;

图6为本公开一具体实施例空调器底座结构的剖面图。Fig. 6 is a cross-sectional view of a base structure of an air conditioner in a specific embodiment of the present disclosure.

附图标记说明：Description of reference signs:

10-底座本体；20-凸包结构；201-横截面；30-风道侧壁；40-出风口；50-保温板；501-凸起结构。10-The base body; 20-convex structure; 201-cross section; 30-air duct side wall; 40-outlet; 50-insulation board; 501-convex structure.

具体实施方式Detailed ways

为使本公开的上述目的、特征和优点能够更为明显易懂，下面结合附图对本公开的具体实施例做详细的说明。In order to make the above objectives, features and advantages of the present disclosure more comprehensible, specific embodiments of the present disclosure will be described in detail below with reference to the accompanying drawings.

在本公开第一个示意性实施例中，提供了一种空调器的底座。图1为本公开实施例空调器的底座的结构示意图。如图1所示，所述空调器的底座包括底座本体10和至少一个凸包结构20。其中，凸包结构20设置于所述空调器的出风口40下方的底座本体10上，并朝向所述出风口40的方向凸起。由此，通过将凸包结构设置在风道内，气流遇到凸包结构后上升，从而改变部分气流方向，平衡风道内的风压，起到减少凝露产生的作用。In the first exemplary embodiment of the present disclosure, a base of an air conditioner is provided. Fig. 1 is a schematic structural diagram of a base of an air conditioner in an embodiment of the disclosure. As shown in FIG. 1, the base of the air conditioner includes a base body 10 and at least one convex hull structure 20. Wherein, the convex hull structure 20 is disposed on the base body 10 below the air outlet 40 of the air conditioner, and protrudes toward the direction of the air outlet 40. Therefore, by arranging the convex hull structure in the air duct, the air flow rises after encountering the convex hull structure, thereby changing the direction of part of the air flow, balancing the wind pressure in the air duct, and reducing condensation.

由于空调器出风面板上的凝露主要是因为左右侧风压不均衡引起的，因此可以将所述凸包结构20设置于靠近风道侧壁30的任意一侧，或风道侧壁30两侧均设置凸包结构20。请再参见图1，所述凸包结构20示例性地设置于靠近风道左侧壁的位置。一般地，所述凸包结构20靠近风道侧壁30的一侧与所述风道侧壁30之间的距离不超过20mm。由此，通过凸包结构在靠近风道侧壁处，能够改善风道左右侧壁附近风压不均衡的问题，对风道内的气流起到导向作用，能够更好地改善出风口易结凝露状态。Since the condensation on the air outlet panel of the air conditioner is mainly caused by the unbalanced wind pressure on the left and right sides, the convex hull structure 20 can be arranged on any side close to the side wall 30 of the air duct, or the side wall 30 of the air duct. Convex hull structures 20 are provided on both sides. Please refer to FIG. 1 again, the convex hull structure 20 is exemplarily arranged at a position close to the left side wall of the air duct. Generally, the distance between the side of the convex hull structure 20 close to the side wall 30 of the air duct and the side wall 30 of the air duct does not exceed 20 mm. Therefore, the convex hull structure near the side wall of the air duct can improve the problem of uneven wind pressure near the left and right side walls of the air duct, guide the airflow in the air duct, and better improve the easy condensation of the air outlet.露STATUS.

进一步的，所述凸包结构20前侧与风道底座前沿平齐或者两者之间距离不超过10mm。通过该设置可以实现气流充分导向，并且减少了对于出风的阻碍。Further, the front side of the convex hull structure 20 is flush with the front edge of the air duct base or the distance between the two is not more than 10 mm. Through this arrangement, the airflow can be fully guided and the obstruction to the wind can be reduced.

示例性的，所述凸包结构20在底座本体10上方凸起的高度为3-10mm；凸包结构20与风道水平方向的长度为40-70mm；凸包结构20与风道垂直方向的宽度为30-60mm。可以理解的是，所述凸包结构20的具体尺寸可以根据不同的底座的尺寸和位置做相应调整。此外，所述凸包结构20的边角可以设置5mm左右的过渡圆角，方便凸包结构20注模。Exemplarily, the height of the convex hull structure 20 above the base body 10 is 3-10mm; the horizontal length of the convex hull structure 20 and the air duct is 40-70mm; the convex hull structure 20 is perpendicular to the air duct. The width is 30-60mm. It can be understood that the specific size of the convex hull structure 20 can be adjusted according to the size and position of different bases. In addition, the corners of the convex hull structure 20 can be provided with a transition fillet of about 5 mm, which facilitates the injection molding of the convex hull structure 20.

在一些实施例中，所述凸包结构20在底座本体10上凸起的部分由靠近底座本体10一侧向远离底座本体10一侧逐渐变小。所述凸包结构20的横截面外轮廓线，凸包结构20向底座本体10上方凸起部分的外轮廓线采用折线、曲线或其组合进行连接，即凸包结构在底座本体上凸起部分的外表面采用曲面和/或斜面的组合，所述曲面或斜面设置在面向所述出风口的一侧，且逐渐靠近底座本体，从而可以根据实际需要实现对气流方向的改变并实现平滑过渡。由此，可以使出风气流逐渐上升，避免出现气流突变，影响用户体验。 特别地，所述曲线在实际使用过程中通常采用多段圆弧线组合连接。In some embodiments, the protruding portion of the convex hull structure 20 on the base body 10 gradually becomes smaller from the side close to the base body 10 to the side away from the base body 10. The outer contour line of the cross section of the convex hull structure 20, the convex hull structure 20 is connected to the outer contour line of the convex part above the base body 10 by a broken line, a curve or a combination thereof, that is, the convex hull structure is on the convex part of the base body. The outer surface of the oscillating surface adopts a combination of curved surfaces and/or inclined surfaces. The curved surfaces or inclined surfaces are arranged on the side facing the air outlet and gradually approach the base body, so that the airflow direction can be changed according to actual needs and a smooth transition can be realized. In this way, the airflow of the outlet air can be gradually increased, avoiding sudden changes in the airflow and affecting the user experience. In particular, the curve is usually connected by a combination of multiple arcs in actual use.

图2a-2e为本公开实施例凸包结构横截面的形状示意图。如图2a所示，所述凸包结构20大致呈圆弧形，该圆弧形可以采用多段线条进行连接，即。如图2b-2e所示，所述凸包结构20在底座本体10上凸起部分的横截面201还可以为梯形、三角形或其他不规则图形，凸包在底座本体上凸起部分的形状需要满足从与底座本体10的结合一侧向对侧方向逐渐变小，从而通过将凸包结构20设置在风道内，改变部分气流方向，起到防止凝露产生的作用。2a-2e are schematic diagrams of the cross-sectional shape of the convex hull structure according to the embodiment of the disclosure. As shown in Fig. 2a, the convex hull structure 20 is roughly in the shape of a circular arc, and the circular arc can be connected by multiple lines, ie. As shown in Figures 2b-2e, the cross-section 201 of the convex part of the convex hull structure 20 on the base body 10 can also be trapezoidal, triangular or other irregular patterns. The shape of the convex part of the convex hull on the base body requires It satisfies that it gradually becomes smaller from the side of the base body 10 to the opposite side, so that by arranging the convex hull structure 20 in the air duct, part of the airflow direction is changed to prevent condensation.

图3为本公开实施例一种凸包结构的示意图。如图3所示，所述凸包结构20自靠近风道侧壁30一侧开始，向远离风道侧壁30一侧逐渐变小，直至与底座实现平滑过渡。由此，从远离风道侧壁30一侧到靠近风道侧壁30一侧，气流的导向作用逐步加强，使得出风更加顺畅。FIG. 3 is a schematic diagram of a convex hull structure according to an embodiment of the disclosure. As shown in FIG. 3, the convex hull structure 20 starts from the side close to the side wall 30 of the air duct, and gradually becomes smaller toward the side away from the side wall 30 of the air duct, until a smooth transition is achieved with the base. As a result, from the side far from the side wall 30 of the air duct to the side close to the side wall 30 of the air duct, the guiding effect of the air flow is gradually strengthened, so that the air exits more smoothly.

在一些实施例中，所述底座还包括保温板50，所述保温板50设置于所述底座本体10背离出风口40的一面。图4为本公开实施例底座背面的结构示意图。如图4所示，在底座本体10背离出风口40的一面，所述凸包结构20的在底座本体10的背面呈凹槽状。In some embodiments, the base further includes an insulation board 50, and the insulation board 50 is disposed on a side of the base body 10 facing away from the air outlet 40. 4 is a schematic diagram of the structure of the back of the base of the embodiment of the disclosure. As shown in FIG. 4, on the side of the base body 10 facing away from the air outlet 40, the convex hull structure 20 is in a groove shape on the back of the base body 10.

一般的，所述保温板50为保温泡沫板。图5为本公开实施例保温泡沫板的结构示意图。如图5所示，所述保温泡沫板上与底座凸包结构20对应的位置设置有凸起结构501，所述凸起结构501与所述凸包结构20背面形成的凹槽的形状相适应，使得所述凸起结构501与所述凸包结构20配合定位，实现两者相对位置的固定。Generally, the thermal insulation board 50 is a thermal insulation foam board. FIG. 5 is a schematic diagram of the structure of the thermal insulation foam board according to the embodiment of the disclosure. As shown in FIG. 5, a convex structure 501 is provided on the thermal insulation foam board at a position corresponding to the convex hull structure 20 of the base, and the convex structure 501 is adapted to the shape of the groove formed on the back of the convex hull structure 20 , So that the protruding structure 501 and the protruding hull structure 20 are positioned in cooperation to achieve the fixation of the relative positions of the two.

由此，通过凸包结构20的背部呈现凹槽与保温泡沫板的凸起结构501相互配合，实现对保温泡沫板进行精准定位，改变以往保温泡沫板随意安装的现象，加强保温隔热的效果，从而减少底座本体背部凝露的产生。As a result, the grooves on the back of the convex structure 20 cooperate with the convex structure 501 of the thermal insulation foam board to achieve precise positioning of the thermal insulation foam board, change the phenomenon of random installation of the thermal insulation foam board in the past, and enhance the effect of thermal insulation , Thereby reducing condensation on the back of the base body.

在一些实施例中，所述凸包结构20与底座本体10可以采用一体结构。通过将凸包结构20与底座设置为一体结构，可以减少零部件，提高装配效率。In some embodiments, the convex hull structure 20 and the base body 10 may adopt an integrated structure. By arranging the convex hull structure 20 and the base as an integral structure, parts can be reduced and assembly efficiency can be improved.

在另一些实施例中，所述凸包结构20与底座本体10还可以采用分体结构。凸包结构20与底座可以采用粘结固定。通过凸包结构20的底部、侧面与底座本体10结合粘接，可以在对底座本体10不做更改的情况下，加装凸包结构20。In other embodiments, the convex hull structure 20 and the base body 10 may also adopt a separate structure. The convex hull structure 20 and the base can be fixed by bonding. By combining and bonding the bottom and sides of the convex hull structure 20 with the base body 10, the convex hull structure 20 can be added without changing the base body 10.

进一步地，还可以将凸包结构20可拆卸地连接于所述凸包结构20上。 例如采用卡扣连接或螺钉连接。通过将凸包结构20与底座本体10设置为可拆卸的分体结构，有利于凸包结构的更换，适于不同空调器机型底座的通配。Further, the convex hull structure 20 can also be detachably connected to the convex hull structure 20. For example, a snap connection or a screw connection is used. By arranging the convex hull structure 20 and the base body 10 as a detachable separate structure, the replacement of the convex hull structure is facilitated, and it is suitable for the universal matching of the bases of different air conditioner models.

为了进一步确保凸包结构20与底座本体10的安装位置准确且牢固，还可以通过设置定位组件，对两者的相对位置进行限定。示例性地，在所述凸包结构20上设置定位凸起，在所述底座本体10相应设置与所述凸包结构20的定位凸起配合的定位凹槽；或者在所述凸包结构20上设置定位凹槽，在所述底座本体10相应设置与所述凸包结构20的定位凹槽配合的定位凸起。In order to further ensure that the installation positions of the convex hull structure 20 and the base body 10 are accurate and firm, the relative positions of the two can also be limited by providing positioning components. Exemplarily, positioning protrusions are provided on the convex hull structure 20, and positioning grooves matching with the positioning protrusions of the convex hull structure 20 are correspondingly provided on the base body 10; or on the convex hull structure 20 A positioning groove is provided on the upper part, and a positioning protrusion that matches with the positioning groove of the convex structure 20 is correspondingly provided on the base body 10.

在一具体实施例中，凸包结构20与底座本体10通过卡扣固定，在底座本体10与凸包结构20结合的底部与侧面设计长沟槽，与之对应的在凸包结构20的结合面上设置凸条，从而长沟槽与凸条作为定位组件进行卡合，能够实现底座本体10与凸包结构20的准确定位。In a specific embodiment, the convex hull structure 20 and the base body 10 are fixed by a buckle, and long grooves are designed on the bottom and sides of the base body 10 and the convex hull structure 20, which correspond to the combination of the convex hull structure 20 The protruding strip is provided on the surface, so that the long groove and the protruding strip are used as a positioning component for engagement, which can realize the accurate positioning of the base body 10 and the protruding structure 20.

为确保凸包结构20的导风性能良好，还可以所述凸包与底座本体10之间设置密封材料，所述密封材料可以为海绵或胶体等。通过在凸包结构20与底座本体10的结合面黏贴密封材料，保证凸包结构20与底座本体10结合面紧密连接，防止漏风，从而能够确保凸包结构20的导风效果，减少凝露的产生。In order to ensure good air conduction performance of the convex hull structure 20, a sealing material may also be arranged between the convex hull and the base body 10, and the sealing material may be sponge or colloid or the like. By sticking a sealing material on the joint surface of the convex hull structure 20 and the base body 10, the joint surface of the convex hull structure 20 and the base body 10 is tightly connected to prevent air leakage, thereby ensuring the air guiding effect of the convex hull structure 20 and reducing condensation The production.

图6为本公开一具体实施例空调器底座结构的剖面图。如图6所示，所述底座本体10在靠近出风口40风道左侧壁位置设置凸包结构20，如图6所示，凸包结构20为大约为长54mm、宽40mm、高8mm的弧形凸起，弧长约为48mm，边角设置5mm的圆角，凸包结构20前侧与风道底座前沿平齐。通过上述设置，凸包结构20可以改变风道内气流方向，减少凝露现象的出现。并且，通过保温板50上的凸起结构501与凸起结构501在底座背面的凹陷相互配合，可以对保温泡沫板进行精准定位，加强保温隔热的效果，减少背部凝露的产生。Fig. 6 is a cross-sectional view of a base structure of an air conditioner in a specific embodiment of the present disclosure. As shown in FIG. 6, the base body 10 is provided with a convex hull structure 20 at a position close to the left side wall of the air duct of the air outlet 40. As shown in FIG. 6, the convex hull structure 20 is approximately 54 mm in length, 40 mm in width, and 8 mm in height. The arc-shaped bulge, the arc length is about 48mm, the corners are set with 5mm rounded corners, and the front side of the convex hull structure 20 is flush with the front edge of the air duct base. Through the above arrangement, the convex hull structure 20 can change the direction of the air flow in the air duct and reduce the occurrence of condensation. In addition, the protrusion structure 501 on the heat preservation board 50 and the recess of the protrusion structure 501 on the back of the base cooperate with each other, so that the heat preservation foam board can be accurately positioned, the effect of heat preservation and heat insulation is enhanced, and the occurrence of back condensation is reduced.

在本公开第二个示意性实施例中，提供了一种空调器，采用如前述实施例所述的空调器的底座。In a second exemplary embodiment of the present disclosure, an air conditioner is provided, which adopts the base of the air conditioner described in the foregoing embodiment.

虽然本公开披露如上，但本公开并非限定于此。任何本领域技术人员，在不脱离本公开的精神和范围内，均可作各种更动与修改，因此本公开的保护范围应当以权利要求所限定的范围为准。Although the present disclosure is disclosed as above, the present disclosure is not limited to this. Any person skilled in the art can make various changes and modifications without departing from the spirit and scope of the present disclosure. Therefore, the protection scope of the present disclosure should be subject to the scope defined by the claims.

Claims (15)

1. 一种空调器的底座，其中，包括：A base of an air conditioner, which includes:

   底座本体(10)；Base body (10);

   至少一个凸包结构(20)，设置于所述空调器的出风口(40)下方的底座本体(10)上，并向所述出风口(40)的方向凸起，用于平衡所述空调器的风道内的风压。At least one convex hull structure (20) is arranged on the base body (10) below the air outlet (40) of the air conditioner and protrudes in the direction of the air outlet (40) for balancing the air conditioner The wind pressure in the air duct of the device.
2. 根据权利要求1所述的底座，其中，所述凸包结构(20)设置于风道的至少一侧，其靠近风道侧壁(30)的一侧与所述风道侧壁(30)之间的距离不超过第一预定距离。The base according to claim 1, wherein the convex hull structure (20) is arranged on at least one side of the air duct, and the side close to the side wall (30) of the air duct is connected to the side wall (30) of the air duct. The distance between them does not exceed the first predetermined distance.
3. 根据权利要求2所述的底座，其中，所述第一预定距离为20mm。The base of claim 2, wherein the first predetermined distance is 20 mm.
4. 根据权利要求1所述的底座，其中，所述凸包结构(20)的在底座本体(10)上凸起部分的外表面包括至少一个曲面和/或至少一个斜面，所述曲面或斜面设置在面向所述出风口(40)的一侧，且逐渐靠近底座本体。The base according to claim 1, wherein the outer surface of the convex portion of the convex hull structure (20) on the base body (10) comprises at least one curved surface and/or at least one inclined surface, and the curved surface or inclined surface is arranged On the side facing the air outlet (40), and gradually approaching the base body.
5. 根据权利要求1所述的底座，其中，所述凸包结构(20)在底座本体(10)上方凸起的高度为3-10mm；和/或所述凸包结构(20)在风道水平方向的长度为40-70mm；和/或所述凸包结构(20)在风道出风方向上的宽度为30-60mm。The base according to claim 1, wherein the height of the convex hull structure (20) above the base body (10) is 3-10mm; and/or the convex hull structure (20) is at the air duct level The length of the direction is 40-70mm; and/or the width of the convex hull structure (20) in the air outlet direction of the air duct is 30-60mm.
6. 根据权利要求1所述的底座，其中，所述凸包结构(20)靠近所述出风口(40)下方的底座本体(10)的前沿的一侧与所述出风口(40)下方的底座本体(10)的前沿之间的距离不超过第二预定距离。The base according to claim 1, wherein the convex hull structure (20) is close to the front side of the base body (10) below the air outlet (40) and the base below the air outlet (40) The distance between the front edges of the body (10) does not exceed a second predetermined distance.
7. 根据权利要求6所述的底座，其中，所述第二预定距离为10mm。The base of claim 6, wherein the second predetermined distance is 10 mm.
8. 根据权利要求1所述的底座，其中，所述凸包结构(20)由靠近所述风道侧壁(30)一侧向远离风道侧壁(30)一侧逐渐减小。The base according to claim 1, wherein the convex hull structure (20) gradually decreases from a side close to the air duct side wall (30) to a side away from the air duct side wall (30).
9. 根据权利要求1所述的底座，其中，所述底座还包括：The base of claim 1, wherein the base further comprises:

   保温板(50)，设置于所述底座本体(10)背向出风口(40)的一面，所述保温板(50)上设置有凸起结构(501)，所述凸起结构(501)与所述凸包结构(20)在底座本体(10)背面形成的凹槽的形状相适应，使得所述凸起结构(501)与所述凸包结构(20)配合定位。The heat preservation board (50) is arranged on the side of the base body (10) facing away from the air outlet (40), and the heat preservation board (50) is provided with a raised structure (501), the raised structure (501) It is adapted to the shape of the groove formed by the convex hull structure (20) on the back of the base body (10), so that the convex structure (501) and the convex hull structure (20) are positioned in cooperation.
10. 根据权利要求1所述的底座，其中，所述凸包结构(20)与底座本 体(10)为一体结构或分体结构。The base according to claim 1, wherein the convex hull structure (20) and the base body (10) are an integral structure or a separate structure.
11. 根据权利要求10所述的底座，其中，所述凸包结构(20)与底座本体(10)为分体结构时，The base according to claim 10, wherein when the convex hull structure (20) and the base body (10) are separate structures,

    所述凸包结构(20)上设置有定位凸起，所述底座本体(10)相应设置有与所述凸包结构(20)的定位凸起配合的定位凹槽；或者The convex hull structure (20) is provided with a positioning protrusion, and the base body (10) is correspondingly provided with a positioning groove that matches with the positioning protrusion of the convex hull structure (20); or

    所述凸包结构(20)上设置有定位凹槽，所述底座本体(10)相应设置有与所述凸包结构(20)的定位凹槽配合的定位凸起。The convex structure (20) is provided with a positioning groove, and the base body (10) is correspondingly provided with a positioning protrusion that matches with the positioning groove of the convex structure (20).
12. 根据权利要求10所述的底座，其中，所述凸包结构(20)与底座本体(10)为分体结构时，凸包结构(20)与底座本体(10)的连接方式包括：粘接和/或卡扣和/或螺钉连接。The base according to claim 10, wherein when the convex hull structure (20) and the base body (10) are separate structures, the connection between the convex hull structure (20) and the base body (10) includes: bonding And/or snap and/or screw connection.
13. 根据权利要求10所述的底座，其中，所述凸包结构(20)与底座本体(10)为分体结构时，所述凸包与底座本体(10)之间的结合面设置密封材料。The base according to claim 10, wherein when the convex hull structure (20) and the base body (10) are separate structures, a sealing material is provided on the joint surface between the convex hull and the base body (10).
14. 根据权利要求13所述的底座，其中，所述密封材料为海绵或胶体。The base according to claim 13, wherein the sealing material is sponge or gel.
15. 一种空调器，其中，所述空调器包括如权利要求1-14任一项所述的空调器的底座。An air conditioner, wherein the air conditioner comprises the base of the air conditioner according to any one of claims 1-14.

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