WO2015035738A1

WO2015035738A1 - Air conditioner sealing device and air conditioner

Info

Publication number: WO2015035738A1
Application number: PCT/CN2014/070265
Authority: WO
Inventors: 闫长林; 李向阳; 姜凤华
Original assignee: 广东美的制冷设备有限公司
Priority date: 2013-09-16
Filing date: 2014-01-07
Publication date: 2015-03-19
Also published as: WO2015035737A1

Abstract

Disclosed are an air conditioner sealing device and an air conditioner, the air conditioner comprising at least one duct system (5), at least one fan system (4), and a flow diversion mechanism (13) disposed in the duct system (5); air flow is sucked into the duct system (5) by the fan system (4), then the motion of the flow diversion mechanism (13) diverts the flow; the sealing device comprises a sealing member arranged between the flow diversion mechanism (13) and the side wall of the duct system (5), and when the flow diversion mechanism (13) moves into close proximity with the side wall of the duct, the sealing member seals between the flow diversion mechanism (13) and the side wall of the duct. By means of adding a sealing device between the flow diversion mechanism (13) and the inside wall of the duct system (5), when the air conditioning is in operation and the flow diversion mechanism moves to the inside wall of the duct, the area between the flow diversion mechanism (13) and the inside wall of the duct system (5) is effectively sealed, thus preventing the formation of condensate on the inside wall of the side wall of the air conditioner flow diversion mechanism (13) and the inside wall of the duct system (5), increasing the performance of the air conditioner; furthermore, the sealing device has a simple structure, is low cost, has good sealing performance, and is convenient and practical.

Description

空调器用密封装置及空调器 Air conditioner sealing device and air conditioner

技术领域 Technical field

　　　本发明涉及空调技术领域，尤其涉及一种多出风口的空调器用密封装置及空调器。　　　The invention relates to the technical field of air conditioners, in particular to a sealing device for an air conditioner and an air conditioner with multiple air outlets.

背景技术Background technique

　　　现有的房间空调器中，有一些空调器使用分流机构对风道进行分流。但是，当分流机构运行到风道内壁一侧时，由于分流机构与风道内壁配合不好时会有间隙产生，若空调器制冷运行则很容易在分流机构和风道内壁上出现冷凝水，从而影响空调***的使用性能。Among the existing room air conditioners, some air conditioners use a flow dividing mechanism to split the air duct. However, when the flow dividing mechanism is operated to the inner wall side of the air duct, a gap is generated when the flow dividing mechanism is not well matched with the inner wall of the air duct, and if the air conditioner is cooled, the condensed water is easily generated on the air distributing mechanism and the inner wall of the air duct. Affect the performance of air conditioning systems.

发明内容Summary of the invention

　　　本发明的主要目的在于提供一种多出风口的空调器用密封装置及空调器，旨在防止空调器分流机构侧壁和风道***内壁产生冷凝水，提高空调器的使用性能。The main object of the present invention is to provide a sealing device for an air conditioner having a plurality of air outlets and an air conditioner, which are intended to prevent condensed water from being generated on the side wall of the air distribution device and the inner wall of the air duct system, thereby improving the performance of the air conditioner.

　　　为了达到上述目的，本发明提出一种空调器用密封装置，所述空调器包括：至少一风道***、至少一风机***以及设置在所述风道***内的分流机构，空气气流由风机***吸入风道***后，再由分流机构的移动进行分流调节，所述密封装置包括：设置在所述分流机构与所述风道***的风道侧壁之间、在所述分流机构移动至贴近所述风道侧壁时将所述分流机构与风道侧壁之间密封的密封件。In order to achieve the above object, the present invention provides a sealing device for an air conditioner, comprising: at least one air duct system, at least one fan system, and a shunting mechanism disposed in the air duct system, the air airflow being sucked by the fan system After the air duct system, the shunting adjustment is performed by the movement of the flow dividing mechanism, and the sealing device includes: disposed between the flow dividing mechanism and the air duct side wall of the air duct system, and moves to the close proximity in the shunting mechanism A seal that seals between the flow dividing mechanism and the side wall of the air duct when the side wall of the air duct is described.

　　　优选地，所述密封件为密封垫，所述密封垫贴附在所述分流机构偏向所述风道内侧的两侧壁上。Preferably, the sealing member is a gasket attached to the two side walls of the flow dividing mechanism which are biased toward the inner side of the air passage.

　　　优选地，所述分流机构沿风道外侧向风道内侧呈渐缩结构。Preferably, the flow dividing mechanism has a tapered structure toward the inner side of the air duct along the outer side of the air duct.

　　　优选地，所述密封垫覆盖整个分流机构侧壁；或者，所述密封垫覆盖整个分流机构其中部分侧壁。Preferably, the gasket covers the entire side wall of the flow dividing mechanism; or the gasket covers a portion of the side wall of the entire flow dividing mechanism.

　　　优选地，所述密封垫覆盖在所述分流机构偏向风道内侧的渐缩角的两侧上，所述密封垫的覆盖长度不超过20mm。Preferably, the gasket covers both sides of the tapered angle of the shunting mechanism on the inner side of the air duct, and the covering length of the gasket does not exceed 20 mm.

　　　优选地，所述密封垫覆盖在所述分流机构的两侧壁靠近风道外侧段；或者，所述密封垫覆盖在所述分流机构的两侧壁的中间段。Preferably, the gasket covers both side walls of the flow dividing mechanism near an outer section of the air duct; or the gasket covers an intermediate section of both side walls of the flow dividing mechanism.

　　　优选地，所述密封垫为软质材料；所述密封垫的厚度大于或等于1mm。Preferably, the gasket is a soft material; the thickness of the gasket is greater than or equal to 1 mm.

　　　优选地，所述密封垫粘接在所述分流机构的两侧壁上。Preferably, the gasket is bonded to both side walls of the flow dividing mechanism.

　　　优选地，所述密封垫为实体结构，或者，所述密封垫为中空结构。Preferably, the gasket is a solid structure, or the gasket is a hollow structure.

　　　优选地，所述密封垫设置在所述风道内侧壁上。Preferably, the gasket is disposed on an inner side wall of the air duct.

　　　优选地，所述分流机构包括：导流块及设置在所述导流块上使该导流块转动的转轴，所述密封件为一密封条，所述密封条设置在所述导流块靠近风道内侧的一端，在所述导流块转动至风道侧壁时，所述密封条将所述导流块与风道侧壁之间密封。Preferably, the flow dividing mechanism comprises: a flow guiding block and a rotating shaft disposed on the flow guiding block to rotate the flow guiding block, the sealing member is a sealing strip, and the sealing strip is disposed on the guiding block An end adjacent to the inner side of the air duct seals between the flow guiding block and the side wall of the air duct when the flow guiding block is rotated to the side wall of the air duct.

　　　优选地，所述导流块沿风道外侧向风道内侧呈渐缩结构，所述密封条设置在所述导流块靠近风道内侧的一端的渐缩角上。Preferably, the flow guiding block has a tapered structure toward the inner side of the air passage along the outer side of the air passage, and the sealing strip is disposed at a tapered angle of one end of the air guiding block near the inner side of the air passage.

　　　优选地，所述密封条与所述导流块粘接；或者，所述密封条与所述导流块卡扣连接。Preferably, the sealing strip is bonded to the guiding block; or the sealing strip is snap-connected with the guiding block.

　　　优选地，所述密封条整体为V型或Y型，该密封条包括分别与所述渐缩角的两侧壁贴附的第一夹持片和第二夹持片，以及位于所述渐缩角的尖角处并与所述第一夹持片和第二夹持片相连的密封部；所述第一夹持片和第二夹持片分别与所述渐缩角的两侧壁粘接或卡扣连接。Preferably, the sealing strip is entirely V-shaped or Y-shaped, and the sealing strip comprises a first clamping piece and a second clamping piece respectively attached to the two side walls of the tapered angle, and is located at the gradual a sealing portion at a sharp corner of the slant angle and connected to the first clamping piece and the second clamping piece; the first clamping piece and the second clamping piece respectively and the two side walls of the tapered angle Bond or snap connection.

　　　优选地，所述第一夹持片和第二夹持片远离所述密封部的端部分别设有卡扣，所述渐缩角的两侧壁对应位置设有卡槽，所述第一夹持片和第二夹持片通过相应的卡扣与卡槽的配合，分别与所述渐缩角的两侧壁卡扣连接。Preferably, the first clamping piece and the second clamping piece are respectively provided with a buckle away from the end of the sealing portion, and the two sidewalls of the tapered angle are provided with a card slot corresponding to the position, the first The clamping piece and the second clamping piece are respectively snap-fitted to the two side walls of the tapered angle by the cooperation of the corresponding buckle and the card slot.

　　　优选地，所述密封部为中空结构；所述中空结构的空腔截面为圆形或三角形。Preferably, the sealing portion is a hollow structure; the cavity of the hollow structure has a circular or triangular cross section.

　　　优选地，所述密封条一体成型。Preferably, the sealing strip is integrally formed.

　　　本发明还提出一种空调器，包括壳体，设置在所述壳体内的换热器以及至少一风机***和风道***，所述风道***内设有分流机构，所述风道***由所述分流机构分为至少两个出风口，还包括密封装置，所述密封装置包括：设置在所述分流机构与所述风道***的风道侧壁之间、在所述分流机构移动至贴近所述风道侧壁时将所述分流机构与风道侧壁之间密封的密封件。The invention also provides an air conditioner comprising a casing, a heat exchanger disposed in the casing, and at least one fan system and a duct system, wherein the duct system is provided with a diverting mechanism, and the duct system is provided by The flow dividing mechanism is divided into at least two air outlets, and further includes a sealing device, the sealing device comprising: disposed between the flow dividing mechanism and a side wall of the air duct system, and the moving mechanism is moved to be close to The air passage side wall is a seal that seals between the flow dividing mechanism and the side wall of the air duct.

　　　优选地，所述空调器包括两套风道***及风机***，所述两套风道***由分流机构分为至少三个出风口。Preferably, the air conditioner comprises two sets of air duct systems and a fan system, and the two sets of air duct systems are divided into at least three air outlets by a flow dividing mechanism.

优选地，该空调器还包括用于驱动所述分流机构的驱动机构，所述驱动机构包括上驱动机构及下驱动机构，所述上驱动机构及下驱动机构的一部分连接在所述分流机构上，另一部分安装在空调器壳体上。　　　Preferably, the air conditioner further includes a driving mechanism for driving the shunting mechanism, the driving mechanism includes an upper driving mechanism and a lower driving mechanism, and a part of the upper driving mechanism and the lower driving mechanism are connected to the shunting mechanism The other part is mounted on the air conditioner housing.

　　　本发明提出的一种多出风口的空调器用密封装置及空调器，通过在分流机构与风道***内壁之间增加密封装置，在空调器制冷运行时，当分流机构运动到风道内侧壁时，可以将分流机构与风道***内壁之间有效地密封，从而防止空调器分流机构侧壁和风道***内壁产生冷凝水，提高了空调器的使用性能，而且本发明密封装置结构简单，成本低，密封效果好，方便实用。　　　The air conditioner sealing device and the air conditioner of the multi-air outlet are provided by adding a sealing device between the diverting mechanism and the inner wall of the air duct system, and when the air distributing device is in the cooling operation, when the diverting mechanism moves to the inner side wall of the air duct The utility model can effectively seal the air distribution mechanism and the inner wall of the air duct system, thereby preventing condensation water from being generated on the side wall of the air distribution device and the inner wall of the air duct system, thereby improving the performance of the air conditioner, and the sealing device of the invention has the advantages of simple structure and low cost. The sealing effect is good, convenient and practical.

附图说明DRAWINGS

　　　图1是本发明空调器用密封装置第一实施例应用的空调***两出风口同时出风的示意图；1 is a schematic view showing the simultaneous air outlet of two air outlets of an air conditioning system to which the first embodiment of the air conditioner sealing device of the present invention is applied;

　　　图2是本发明空调器用密封装置第一实施例应用的空调***其中一出风口出风的示意图；2 is a schematic view showing an air outlet of one of the air outlets of the air conditioning system applied to the first embodiment of the air conditioner sealing device of the present invention;

　　　图3是本发明空调器用密封装置第一实施例应用的空调***另一出风口出风的示意图；3 is a schematic view showing another air outlet of an air conditioning system to which the first embodiment of the air conditioner sealing device of the present invention is applied;

　　　图4是本发明空调器用密封装置第二实施例应用的空调***两出风口同时出风的示意图；4 is a schematic view showing the simultaneous air outlet of the air outlets of the air conditioning system applied to the second embodiment of the air conditioner sealing device of the present invention;

　　　图5是本发明空调器用密封装置第三实施例应用的空调***两出风口同时出风的示意图；Figure 5 is a schematic view showing the simultaneous air outlet of the air outlets of the air conditioning system applied to the third embodiment of the air conditioner sealing device of the present invention;

　　　图6是本发明空调器用密封装置第四实施例应用的空调***两出风口同时出风的示意图；Figure 6 is a schematic view showing the simultaneous air outlet of the air outlets of the air conditioning system applied to the fourth embodiment of the air conditioner sealing device of the present invention;

　　　图7是本发明空调器用密封装置第五实施例应用的空调***两出风口同时出风的示意图；图8是本发明空调器用密封装置第六实施例与导流块的装配示意图；7 is a schematic view showing the simultaneous air outlet of the air outlets of the air conditioner system according to the fifth embodiment of the air conditioner sealing device of the present invention; FIG. 8 is a schematic view showing the assembly of the sixth embodiment of the air conditioner sealing device of the present invention and the guide block;

　　　图9是本发明空调器用密封装置第六实施例应用的空调***第一种出风示意图；Figure 9 is a first air flow schematic diagram of an air conditioning system to which the sixth embodiment of the air conditioner sealing device of the present invention is applied;

　　　图10是本发明空调器用密封装置第六实施例应用的空调***第二种出风示意图；Figure 10 is a second schematic view of the air outlet of the air conditioning system applied to the sixth embodiment of the air conditioner sealing device of the present invention;

　　　图11是本发明空调器用密封装置第六实施例应用的空调***第三种出风示意图；Figure 11 is a third airflow schematic diagram of an air conditioning system to which the sixth embodiment of the air conditioner sealing device of the present invention is applied;

　　　图12是本发明空调器用密封装置第七实施例与导流块的装配示意图；Figure 12 is a schematic view showing the assembly of the seventh embodiment of the air conditioner sealing device of the present invention and the flow guiding block;

　　　图13是本发明空调器用密封装置第八实施例与导流块的装配示意图；Figure 13 is a schematic view showing the assembly of the eighth embodiment of the sealing device for an air conditioner of the present invention and the flow guiding block;

　　　图14是本发明空调器用密封装置第九实施例与导流块的装配示意图；Figure 14 is a schematic view showing the assembly of the ninth embodiment of the sealing device for an air conditioner of the present invention and the flow guiding block;

　　　图15是本发明空调器用密封装置第十实施例与导流块的装配示意图；Figure 15 is a schematic view showing the assembly of the tenth embodiment of the sealing device for an air conditioner of the present invention and the flow guiding block;

　　　图16是本发明应用有密封装置的空调器第二实施例的结构示意图；Figure 16 is a schematic structural view of a second embodiment of an air conditioner to which the sealing device of the present invention is applied;

　　　图17是本发明应用有密封装置的空调器实施例中分流机构与驱动机构的结构分解示意图。　　　Figure 17 is a schematic exploded view showing the structure of the flow dividing mechanism and the driving mechanism in the embodiment of the air conditioner to which the sealing device of the present invention is applied.

　　　为了使本发明的技术方案更加清楚、明了，下面将结合附图作进一步详述。　　　In order to make the technical solutions of the present invention clearer and clearer, the following will be further described in detail with reference to the accompanying drawings.

具体实施方式detailed description

　　　应当理解，此处所描述的具体实施例仅仅用以解释本发明，并不用于限定本发明。　　　It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

　　　如图1、图2及图3所示，本发明第一实施例提出一种空调器用密封装置，该空调器包括：至少一风道***5、至少一风机***4以及设置在所述风道***5内的分流机构13，分流机构13将风道***5分为至少两个出风口；空气气流由风机***4吸入风道***5后，再由分流机构13的移动进行分流调节。所述密封装置包括：设置在所述分流机构13与所述风道***5的风道侧壁之间的密封件。As shown in FIG. 1 , FIG. 2 and FIG. 3 , a first embodiment of the present invention provides a sealing device for an air conditioner, comprising: at least one air duct system 5, at least one fan system 4, and a duct disposed on the air duct. The flow dividing mechanism 13 in the system 5 divides the air duct system 5 into at least two air outlets; the air airflow is sucked into the air duct system 5 by the fan system 4, and then the shunting mechanism 13 performs shunt regulation. The sealing device includes a seal disposed between the flow dividing mechanism 13 and a side wall of the air duct system 5.

　　　在本实施例中，该密封件为设置在所述分流机构13与所述风道***5的风道侧壁之间的密封垫7、6，在所述分流机构13移动至贴近所述风道侧壁时，通过密封垫7、6可以将所述分流机构13与风道侧壁之间有效的密封，从而防止空调器分流机构13侧壁和风道***5内壁产生冷凝水，提高空调器的使用性能。In the present embodiment, the sealing member is a

gasket

7, 6 disposed between the flow dividing mechanism 13 and the air passage side wall of the air duct system 5, and the flow dividing mechanism 13 is moved to be close to the wind. When the side wall is provided, the sealing mechanism 7 and the air passage side wall can be effectively sealed by the

gaskets

7, 6, thereby preventing condensation on the side wall of the air conditioner diverting mechanism 13 and the inner wall of the air duct system 5, and improving the air conditioner. Performance of use.

　　　具体地，在本实施例中，分流机构13将风道***5分为出风口a和出风口b，所述分流机构13沿风道外侧向风道内侧呈渐缩结构，在所述分流机构13偏向所述风道内侧的两侧壁上分别贴附有一密封垫7、6，且密封垫7、6各自覆盖分流机构13两侧的整个侧壁，即密封垫7覆盖分流机构13靠近出风口a的整个侧壁，密封垫6覆盖分流机构13靠近出风口b的整个侧壁。Specifically, in the present embodiment, the flow dividing mechanism 13 divides the air duct system 5 into an air outlet a and a air outlet b, and the flow dividing mechanism 13 has a tapered structure toward the inner side of the air duct along the outer side of the air duct, in the flow dividing mechanism 13 sealing

holes

7 and 6 are respectively attached to the two side walls of the inner side of the air duct, and the

sealing pads

7 and 6 respectively cover the entire side walls of the two sides of the flow dividing mechanism 13 , that is, the sealing pad 7 covers the shunting mechanism 13 and is close to the outlet. The entire side wall of the tuyere a, the gasket 6 covers the entire side wall of the flow dividing mechanism 13 near the air outlet b.

　　　其中，两密封垫7、6可以粘接在分流机构13的两侧壁上，也可以通过其他形式贴附在分流机构13的两侧壁上。The two

gaskets

7 and 6 may be adhered to the two side walls of the flow dividing mechanism 13 or may be attached to the two side walls of the flow dividing mechanism 13 by other forms.

　　　所述密封垫7、6的材质可以选择橡胶、海绵或者其他软性材质等材料。The material of the

gaskets

7 and 6 may be selected from materials such as rubber, sponge or other soft materials.

　　　作为一种较佳实施方式，密封垫7、6的厚度可以大于或等于1mm。As a preferred embodiment, the thickness of the

gaskets

7, 6 may be greater than or equal to 1 mm.

　　　另外，本实施例中密封垫7、6为实体结构。对密封垫7、6的截面形状不作具体限定。In addition, the

gaskets

7, 6 in the present embodiment have a solid structure. The cross-sectional shape of the

gaskets

7, 6 is not specifically limited.

　　　本实施例密封装置在分流机构13移动时，将分流机构13与风道***5的内壁之间进行密封的原理如下：The sealing device of the present embodiment seals between the flow dividing mechanism 13 and the inner wall of the air duct system 5 when the flow dividing mechanism 13 is moved as follows:

　　　如图1所示，空气气流从外部由风机***4吸入到风道***5，然后再由分流机构13进行分流，分流机构13可以按照图1中箭头A或B所示方向移动，此时分流机构13处于风道***5的中间位置，将空气气流一分为二，这样出风口a和出风口b都有风吹出，此时分流机构13和风道***5的内壁上都不会有冷凝水出现。As shown in Fig. 1, the air flow is externally drawn into the duct system 5 by the fan system 4, and then split by the splitter mechanism 13, and the splitter mechanism 13 can be moved in the direction indicated by the arrow A or B in Fig. 1, at this time, the shunt The mechanism 13 is located at an intermediate position of the air duct system 5, and divides the air flow into two, so that both the air outlet a and the air outlet b are blown out by the wind, and at this time, there is no condensation water on the inner walls of the flow dividing mechanism 13 and the air duct system 5. appear.

　　　如图2所示，当分流机构13沿着图2中箭头A所示的移动方向进行移动，直至碰到风道***5位于出风口a侧的内壁时，此时密封垫7处于分流机构13和风道***5之间，由于密封垫7的密封作用，空气气流全部从出风口b吹出，当空调器在制冷运行时，分流机构13和风道***5的内壁上不会有冷凝水产生。As shown in FIG. 2, when the flow dividing mechanism 13 moves in the moving direction indicated by the arrow A in FIG. 2 until the air passage system 5 is located on the inner wall of the air outlet a side, the gasket 7 is at the flow dividing mechanism 13 at this time. Between the air duct system 5 and the air duct system 5, the air flow is completely blown out from the air outlet b due to the sealing action of the gasket 7, and when the air conditioner is in the cooling operation, there is no condensed water generated on the inner walls of the branching mechanism 13 and the duct system 5.

　　　同理，如图3所示，当分流机构13沿着图3中箭头B所示的移动方向进行移动，直至碰到风道***5出风口b侧的内壁时，此时密封垫6处于分流机构13和风道***5之间，由于密封垫6的密封作用，空气气流全部从出风口a吹出，当空调器在制冷运行时，分流机构13和风道***5的内壁上不会有冷凝水产生。Similarly, as shown in FIG. 3, when the flow dividing mechanism 13 moves in the moving direction indicated by the arrow B in FIG. 3 until it hits the inner wall of the air outlet b side of the air duct system 5, the gasket 6 is at the time of shunting. Between the mechanism 13 and the air duct system 5, due to the sealing action of the gasket 6, the air flow is completely blown out from the air outlet a. When the air conditioner is in the cooling operation, there is no condensation water generated on the inner walls of the flow dividing mechanism 13 and the air duct system 5. .

　　　由此，通过上述方案，通过在分流机构13侧壁上增加密封垫7、6，在空调器制冷运行时，当分流机构13运动到风道内侧壁时，通过密封垫7、6的作用，可以将分流机构13与风道***5内壁之间有效地密封，从而防止空调器分流机构13侧壁和风道***5内壁产生冷凝水，提高了空调器的使用性能，而且本发明密封装置结构简单，成本低，密封效果好，方便实用。　　　Thus, by the above arrangement, by adding the

gaskets

7, 6 to the side wall of the flow dividing mechanism 13, when the air distribution mechanism 13 is moved to the inner side wall of the air duct during the cooling operation of the air conditioner, by the action of the

gaskets

7, 6, The shunting mechanism 13 and the inner wall of the air duct system 5 can be effectively sealed, thereby preventing condensation water from being generated on the side walls of the air conditioner diverting mechanism 13 and the inner wall of the air duct system 5, improving the performance of the air conditioner, and the sealing device of the present invention has a simple structure. The cost is low, the sealing effect is good, and it is convenient and practical.

　　　如图4所示，本发明第二实施例提出一种空调器用密封装置，与上述第一实施例的区别在于，上述第一实施例中，密封垫7、6覆盖整个分流机构13的侧壁，本实施例中密封垫7、6覆盖整个分流机构13的其中部分侧壁，即密封垫7覆盖分流机构13靠近出风口a的侧壁的其中部分侧壁，密封垫6覆盖分流机构13靠近出风口b的侧壁的其中部分侧壁。As shown in FIG. 4, a second embodiment of the present invention provides a sealing device for an air conditioner, which is different from the above-described first embodiment in that, in the above-described first embodiment, the

gaskets

7, 6 cover the side walls of the entire flow dividing mechanism 13. In this embodiment, the

sealing pads

7, 6 cover a part of the side wall of the entire flow dividing mechanism 13, that is, the sealing pad 7 covers a part of the side wall of the side wall of the flow dividing mechanism 13 near the air outlet a, and the sealing pad 6 covers the shunting mechanism 13 close to A part of the side wall of the side wall of the air outlet b.

　　　具体地，在本实施例中，所述密封垫7、6覆盖在所述分流机构13偏向风道内侧的渐缩角的两侧上。Specifically, in the present embodiment, the

gaskets

7, 6 are covered on both sides of the tapered angle at which the flow dividing mechanism 13 is biased toward the inner side of the air passage.

　　　作为一种实施方式，所述密封垫7、6的覆盖长度不超过20mm。As an embodiment, the

sealing pads

7, 6 have a covering length of no more than 20 mm.

　　　其他与第一实施例相同。Others are the same as the first embodiment.

　　　本实施例通过上述方案，通过在分流机构13的偏向风道内侧的渐缩角的两侧壁上增加密封垫7、6，在空调器制冷运行时，当分流机构13运动到风道内侧壁时，通过密封垫7、6的作用，可以将分流机构13与风道***5内壁之间有效地密封，从而防止空调器分流机构13侧壁和风道***5内壁产生冷凝水，提高了空调器的使用性能，而且本发明密封装置结构简单，成本低，密封效果好，方便实用。　　　In the embodiment, by the above arrangement, the

gaskets

7 and 6 are added on the two side walls of the taper angle of the inner side of the air distribution mechanism, and the shunting mechanism 13 is moved to the inner side wall of the air duct during the cooling operation of the air conditioner. At the same time, the action of the

gaskets

7, 6 can effectively seal the flow dividing mechanism 13 and the inner wall of the air duct system 5, thereby preventing condensation on the side walls of the air conditioner diverting mechanism 13 and the inner wall of the air duct system 5, thereby improving the air conditioner. The use performance, and the sealing device of the invention has the advantages of simple structure, low cost, good sealing effect, convenient and practical.

　　　如图5所示，本发明第三实施例提出一种空调器用密封装置，与上述第二实施例的区别在于，本实施例中，密封垫7、6覆盖在所述分流机构13的两侧壁靠近风道外侧段，其他与第二实施例相同。As shown in FIG. 5, a third embodiment of the present invention provides a sealing device for an air conditioner, which is different from the above-described second embodiment in that, in this embodiment, the

gaskets

7, 6 are covered on both sides of the flow dividing mechanism 13. The wall is adjacent to the outer section of the duct, and the others are the same as in the second embodiment.

　　　本实施例通过上述方案，通过在分流机构13两侧壁靠近风道外侧段增加密封垫7、6，在空调器制冷运行时，当分流机构13运动到风道内侧壁时，通过密封垫7、6的作用，可以将分流机构13与风道***5内壁之间有效地密封，从而防止空调器分流机构13侧壁和风道***5内壁产生冷凝水，提高了空调器的使用性能，而且本发明密封装置结构简单，成本低，密封效果好，方便实用。　　　In this embodiment, by the above scheme, the

gaskets

7 and 6 are added to the outer side of the air duct at both side walls of the flow dividing mechanism 13, and when the air distribution mechanism is cooled, the shunting mechanism 13 moves to the inner side wall of the air duct, and passes through the gasket 7 The function of 6, can effectively seal the flow dividing mechanism 13 and the inner wall of the air duct system 5, thereby preventing condensation water from being generated on the side wall of the air conditioner diverting mechanism 13 and the inner wall of the air duct system 5, thereby improving the performance of the air conditioner, and The invention has simple structure, low cost, good sealing effect, convenient and practical.

　　　如图6所示，本发明第四实施例提出一种空调器用密封装置，与上述第二实施例的区别在于，本实施例中，密封垫7、6覆盖在所述分流机构13的两侧壁的中间段。其他与第二实施例相同。As shown in FIG. 6, a fourth embodiment of the present invention provides a sealing device for an air conditioner, which is different from the second embodiment in that, in this embodiment, the

gaskets

7, 6 are covered on both sides of the flow dividing mechanism 13. The middle section of the wall. Others are the same as the second embodiment.

　　　本实施例通过上述方案，通过在分流机构13两侧壁中间段增加密封垫7、6，在空调器制冷运行时，当分流机构13运动到风道内侧壁时，通过密封垫7、6的作用，可以将分流机构13与风道***5内壁之间有效地密封，从而防止空调器分流机构13侧壁和风道***5内壁产生冷凝水，提高了空调器的使用性能，而且本发明密封装置结构简单，成本低，密封效果好，方便实用。　　　In the embodiment, by the above arrangement, by adding the

sealing pads

7, 6 in the middle section of the two side walls of the flow dividing mechanism 13, when the air distribution mechanism 13 is moved to the inner side wall of the air duct, the

sealing pads

7 and 6 are passed through during the cooling operation of the air conditioner. The utility model can effectively seal the flow dividing mechanism 13 and the inner wall of the air duct system 5, thereby preventing condensation water from being generated on the side wall of the air conditioner diverting mechanism 13 and the inner wall of the air duct system 5, improving the performance of the air conditioner, and the sealing device of the present invention The utility model has the advantages of simple structure, low cost, good sealing effect, convenient and practical.

　　　如图7所示，本发明第五实施例提出一种空调器用密封装置，与上述第二实施例的区别在于，本实施例中，密封垫7、6为中空结构。其他与第二实施例相同。As shown in Fig. 7, a fifth embodiment of the present invention provides a sealing device for an air conditioner, which is different from the above-described second embodiment in that, in the present embodiment, the

gaskets

7, 6 are hollow structures. Others are the same as the second embodiment.

　　　本实施例通过上述方案，通过在分流机构13的偏向风道内侧的渐缩角的两侧壁上增加密封垫7、6，且密封垫7、6为中空结构，在空调器制冷运行时，当分流机构13运动到风道内侧壁时，通过密封垫7、6的作用，可以将分流机构13与风道***5内壁之间有效地密封，从而防止空调器分流机构13侧壁和风道***5内壁产生冷凝水，提高了空调器的使用性能，而且本发明密封装置结构简单，成本低，密封效果好，方便实用。　　　In the embodiment, the

gaskets

7 and 6 are added to the two side walls of the taper angle on the inner side of the deflecting duct 13 by the above-mentioned solution, and the

gaskets

7 and 6 are hollow structures, and when the air conditioner is cooled and operated, When the flow dividing mechanism 13 is moved to the inner side wall of the air duct, the function of the

gaskets

7, 6 can effectively seal the flow dividing mechanism 13 and the inner wall of the air duct system 5, thereby preventing the air conditioner shunting mechanism 13 side wall and the air duct system. 5 The inner wall generates condensed water, which improves the performance of the air conditioner, and the sealing device of the invention has the advantages of simple structure, low cost, good sealing effect, convenient and practical.

　　　需要说明的是，上述各实施例中，将密封垫7、6设置分流机构13的两侧壁上，在其他实施例中，还可以将密封垫7、6设置在风道***5的风道内侧壁上，同样可以实现将分流机构13与风道***5内壁之间有效地密封，防止空调器分流机构13侧壁和风道***5内壁产生冷凝水，其具体结构在此不再赘述。　　　It should be noted that, in the above embodiments, the

gaskets

7 and 6 are disposed on the two side walls of the flow dividing mechanism 13, and in other embodiments, the

gaskets

7, 6 may be disposed on the air passage of the air duct system 5. On the inner side wall, the inner wall of the air distribution system 13 and the inner wall of the air duct system 5 can be effectively sealed to prevent condensed water from being generated on the side wall of the air conditioner shunting mechanism 13 and the inner wall of the air duct system 5. The specific structure will not be described herein.

　　　如图15、图9、图10及图11所示，本发明第六实施例提出一种密封装置，应用于空调器上，所述空调器包括：至少一风道***5、与风道***5配合的风机***4以及设置在所述风道***5内的分流机构，空气气流由风机***4吸入风道***5后，再由分流机构进行分流调节，所述分流机构包括：导流块1及设置在所述导流块1上使该导流块1转动的转轴3。As shown in FIG. 15, FIG. 9, FIG. 10 and FIG. 11, a sixth embodiment of the present invention provides a sealing device applied to an air conditioner, the air conditioner comprising: at least one air duct system 5, and a duct system. 5 cooperated fan system 4 and a shunting mechanism disposed in the air duct system 5, after the air airflow is sucked into the air duct system 5 by the fan system 4, and then the shunting mechanism performs shunt regulation, the shunting mechanism includes: a diversion block 1 and a rotating shaft 3 disposed on the flow guiding block 1 to rotate the flow guiding block 1.

　　　本实施例的密封装置包括设置在所述分流机构13与所述风道***5的风道侧壁之间的密封件，本实施例密封件为一密封条2，所述密封条2设置在所述导流块1靠近风道内侧的一端，在所述导流块1转动至风道侧壁时，通过所述密封条2可以将所述导流块1与风道侧壁之间有效的密封，从而防止空调器导流块1和风道***5内壁产生冷凝水，提高空调器的使用性能。The sealing device of the present embodiment includes a sealing member disposed between the flow dividing mechanism 13 and the air passage side wall of the air duct system 5. In this embodiment, the sealing member is a sealing strip 2, and the sealing strip 2 is disposed at The flow guiding block 1 is close to one end of the inner side of the air passage. When the flow guiding block 1 is rotated to the side wall of the air duct, the sealing strip 2 can effectively pass between the guiding block 1 and the air duct side wall. The sealing prevents the condensed water from being generated on the air guide block 1 and the inner wall of the air duct system 5, thereby improving the performance of the air conditioner.

　　　具体地，结合图9、图10及图11所示，在本实施例中，空调器包括两套风道***5和风机***4，在每一风道***5内，位于该风道***5内的导流块1将该风道***5分为两出风口，且两风道***5相邻的两出风口合并为一个出风口，由此，两套风道***5由两导流块1分为出风口a、出风口b和出风口c。Specifically, as shown in FIG. 9, FIG. 10 and FIG. 11, in the present embodiment, the air conditioner includes two sets of air duct system 5 and a fan system 4, and in each air duct system 5, the air duct system 5 is located. The inner guiding block 1 divides the air duct system 5 into two air outlets, and the two air outlets adjacent to the two air duct systems 5 are combined into one air outlet, whereby the two air duct systems 5 are composed of two air guiding blocks. 1 is divided into air outlet a, air outlet b and air outlet c.

　　　上述导流块1沿风道外侧向风道内侧呈渐缩结构，所述密封条2设置在所述导流块1靠近风道内侧的一端的渐缩角上。The flow guiding block 1 has a tapered structure toward the inner side of the air passage along the outer side of the air passage, and the sealing strip 2 is disposed at a tapered angle of one end of the flow guiding block 1 near the inner side of the air passage.

　　　作为一种实施方式，在本实施例中，所述密封条2与所述导流块1可以粘接，也可以通过卡扣方式连接，本实施例以粘接进行举例；该密封条2的材质可以选择橡胶、海绵或者其他软性材质等材料。As an embodiment, in the embodiment, the sealing strip 2 can be bonded to the guiding block 1 or can be connected by a snapping method. This embodiment is exemplified by bonding; the sealing strip 2 is The material can be selected from materials such as rubber, sponge or other soft materials.

　　　所述密封条2整体为V型或Y型，该密封条2包括分别与所述渐缩角的两侧壁贴附的第一夹持片21和第二夹持片22，以及位于所述渐缩角的尖角处并与所述第一夹持片21和第二夹持片22相连的密封部23；所述第一夹持片21和第二夹持片22分别与所述渐缩角的两侧壁通过粘胶粘接。The sealing strip 2 is generally V-shaped or Y-shaped, and the sealing strip 2 includes a first clamping piece 21 and a second clamping piece 22 respectively attached to the two side walls of the tapered angle, and is located at the a sealing portion 23 at a sharp corner of the tapered corner and connected to the first clamping piece 21 and the second clamping piece 22; the first clamping piece 21 and the second clamping piece 22 respectively The two side walls of the angled corner are bonded by glue.

　　　由此，通过密封条2的两夹持片将密封条2夹持固定在分流块的渐缩角上，密封条2通过密封部23与风道侧壁之间实现密封。Thereby, the sealing strip 2 is clamped and fixed to the tapered corner of the diverter block by the two holding pieces of the sealing strip 2, and the sealing strip 2 is sealed by the sealing portion 23 and the side wall of the duct.

　　　作为一种实施方式，上述第一夹持片21和第二夹持片22可以一体成型；此外，密封部23与第一夹持片21和第二夹持片22可以一体成型，也可以采用其他方式与第一夹持片21和第二夹持片22固定连接。As an embodiment, the first clamping piece 21 and the second clamping piece 22 may be integrally formed; in addition, the sealing portion 23 and the first clamping piece 21 and the second clamping piece 22 may be integrally formed, or may be used. Other means are fixedly connected to the first clamping piece 21 and the second clamping piece 22.

　　　此外，为了增加密封条2的密封效果，还可以将密封条2的密封部23设置为中空结构，以增加密封部23的弹性形变空间，进而增加导流块1与风道侧壁的密封效果。In addition, in order to increase the sealing effect of the sealing strip 2, the sealing portion 23 of the sealing strip 2 can also be provided as a hollow structure to increase the elastic deformation space of the sealing portion 23, thereby increasing the sealing effect of the flow guiding block 1 and the side wall of the air duct. .

　　　其中，中空结构的空腔截面可以为圆形、方形、三角形或者其他形状等，本实施例以中空结构的空腔截面为圆形进行举例。The cavity section of the hollow structure may be a circle, a square, a triangle, or other shapes. In this embodiment, the cavity section of the hollow structure is circular.

　　　本实施例密封装置应用在空调器中，将导流块1与风道***5的内壁之间进行密封的原理如下：The sealing device of the present embodiment is applied to an air conditioner, and the principle of sealing between the flow guiding block 1 and the inner wall of the air duct system 5 is as follows:

　　　如图9所示，空气气流从机身壳体9外侧进入，然后通过换热器10，再由风机***4吸入到风道***5，然后再由导流块1进行分流，此时导流块1处于风道***5的中间位置，将空气气流一分为二，这样出风口a、出风口b和出风口c都有风吹出，此时导流块1和风道***5的内壁上都不会有冷凝水出现。As shown in Fig. 9, the air flow enters from the outside of the fuselage casing 9, passes through the heat exchanger 10, is sucked into the duct system 5 by the fan system 4, and is then split by the diversion block 1 at this time. The block 1 is in the middle position of the air duct system 5, and divides the air flow into two, so that the air outlet a, the air outlet b and the air outlet c are blown out by the wind, and the inner wall of the air guiding block 1 and the air duct system 5 are both at this time. There will be no condensation.

　　　如图10所示，空气气流从机身壳体9外侧进入，然后通过换热器10，再由风机***4吸入到风道***5，然后再由导流块1进行分流，此时导流块1沿着导流块1转轴3按照图示箭头方向旋转到贴住风道***5的内壁时，此时风全部从出风口b吹出，由于导流块1和风道***5的内壁之间有密封条2进行密封，从而防止了导流块1和风道***5内壁产生冷凝水。As shown in Fig. 10, the air flow enters from the outside of the fuselage casing 9, passes through the heat exchanger 10, is sucked into the duct system 5 by the fan system 4, and is then split by the diversion block 1 at this time. When the block 1 is rotated along the axis of the arrow 3 in the direction of the arrow shown in the figure to the inner wall of the duct system 5, the wind is blown out from the air outlet b at this time, due to the relationship between the air guiding block 1 and the inner wall of the duct system 5 The sealing strip 2 is sealed to prevent condensation on the inner walls of the flow guiding block 1 and the air duct system 5.

　　　同理，如图11所示，空气气流从机身壳体9外侧进入，然后通过换热器10，再由风机***4吸入到风道***5，然后再由导流块1进行分流，此时导流块1沿着导流块1转轴3按照图示箭头方向（与图10中对应的旋转方向相反）旋转到贴住风道***5的内壁时，此时风全部从出风口a和出风口c吹出，由于导流块1和风道***5的内壁之间有密封条2进行密封，从而防止了导流块1和风道***5内壁产生冷凝水。Similarly, as shown in FIG. 11, the air flow enters from the outside of the fuselage casing 9, passes through the heat exchanger 10, is sucked into the duct system 5 by the fan system 4, and then splits by the diversion block 1, which When the flow guiding block 1 is rotated along the direction of the arrow (as opposed to the corresponding rotating direction in FIG. 10) along the rotating shaft 3 of the flow guiding block 1 to the inner wall of the air duct system 5, the wind is all from the air outlet a and The air outlet c is blown out, and a sealing strip 2 is sealed between the air guiding block 1 and the inner wall of the air duct system 5, thereby preventing condensation water from being generated on the inner wall of the air guiding block 1 and the air duct system 5.

　　　由此，通过上述方案，通过在分流机构的导流块1上靠近风道内侧的一端设置密封条2，密封条2与所述导流块1粘接，在空调器制冷运行时，当导流块1运动到风道内侧壁时，可以将导流块1与风道***5内壁之间有效的密封，从而防止空调器导流块1和风道***5内壁产生冷凝水，提高了空调器的使用性能，而且本发明密封装置结构简单，成本低，密封效果好，方便实用。　　　Thus, by the above arrangement, the sealing strip 2 is provided on the flow guiding block 1 of the flow dividing mechanism near the inner side of the air duct, and the sealing strip 2 is bonded to the flow guiding block 1, and when the air conditioner is in the cooling operation, the guiding When the flow block 1 moves to the inner side wall of the air duct, the air flow block can be effectively sealed between the air guide block 1 and the inner wall of the air duct system 5, thereby preventing condensation water from being generated on the inner wall of the air conditioner guide block 1 and the air duct system 5, and the air conditioner is improved. The use performance, and the sealing device of the invention has the advantages of simple structure, low cost, good sealing effect, convenient and practical.

　　　如图12所示，本发明第七实施例提出一种空调器用密封装置，与上述第六实施例的区别在于，本实施例中，所述密封条2与所述导流块1卡扣连接。As shown in FIG. 12, a seventh embodiment of the present invention provides a sealing device for an air conditioner, which is different from the sixth embodiment in that, in the embodiment, the sealing strip 2 is snap-connected with the guiding block 1. .

　　　其中，所述第一夹持片21和第二夹持片22分别与所述渐缩角的两侧壁卡扣连接。The first clamping piece 21 and the second clamping piece 22 are respectively buckledly connected to the two side walls of the tapered angle.

　　　具体地，所述第一夹持片21和第二夹持片22远离所述密封部23的端部分别设有卡扣，所述渐缩角的两侧壁对应位置设有卡槽，所述第一夹持片21和第二夹持片22通过相应的卡扣与卡槽的配合，分别与所述渐缩角的两侧壁卡扣连接。Specifically, the end portions of the first clamping piece 21 and the second clamping piece 22 away from the sealing portion 23 are respectively provided with buckles, and the two side walls of the tapered angle are provided with card slots. The first clamping piece 21 and the second clamping piece 22 are respectively snap-fitted to the two side walls of the tapered angle by the cooperation of the corresponding buckles and the card slots.

　　　其他与第六实施例相同。Others are the same as the sixth embodiment.

　　　本实施例通过上述方案，通过在分流机构的导流块1上靠近风道内侧的一端设置密封条2，密封条2与所述导流块1卡扣连接，在空调器制冷运行时，当导流块1运动到风道内侧壁时，可以将导流块1与风道***5内壁之间有效的密封，从而防止空调器导流块1和风道***5内壁产生冷凝水，提高了空调器的使用性能，而且本发明密封装置结构简单，成本低，密封效果好，方便实用。　　　In the above embodiment, the sealing strip 2 is disposed on the flow guiding block 1 of the flow dividing mechanism near the inner side of the air passage, and the sealing strip 2 is snap-connected with the guiding block 1 during the cooling operation of the air conditioner. When the flow guiding block 1 moves to the inner side wall of the air duct, the air guiding block 1 and the inner wall of the air duct system 5 can be effectively sealed, thereby preventing condensation water from being generated on the air guiding block 1 and the inner wall of the air duct system 5, thereby improving the air conditioning. The utility model has the advantages of the use performance, and the sealing device of the invention has the advantages of simple structure, low cost, good sealing effect, convenient and practical.

　　　如图13所示，本发明第八实施例提出一种空调器用密封装置，与上述第七实施例的区别在于，本实施例中，所述密封部23的中空结构的空腔截面为三角形。As shown in Fig. 13, an eighth embodiment of the present invention provides a sealing device for an air conditioner, which is different from the seventh embodiment in that, in the present embodiment, the hollow portion of the hollow portion of the sealing portion 23 has a triangular cross section.

　　　其他与第七实施例相同。Others are the same as the seventh embodiment.

　　　如图14所示，本发明第九实施例提出一种空调器用密封装置，与上述第六实施例的区别在于，本实施例中，所述密封部23的中空结构的空腔截面为三角形。As shown in Fig. 14, a ninth embodiment of the present invention provides a sealing device for an air conditioner, which is different from the above-described sixth embodiment in that, in the present embodiment, the hollow portion of the hollow portion of the sealing portion 23 has a triangular cross section.

　　　其他与第六实施例相同。Others are the same as the sixth embodiment.

　　　本实施例通过上述方案，通过在分流机构的导流块1上靠近风道内侧的一端设置密封条2，密封条2与所述导流块1粘接，在空调器制冷运行时，当导流块1运动到风道内侧壁时，可以将导流块1与风道***5内壁之间有效的密封，从而防止空调器导流块1和风道***5内壁产生冷凝水，提高了空调器的使用性能，而且本发明密封装置结构简单，成本低，密封效果好，方便实用。　　　In the embodiment, the sealing strip 2 is disposed on the flow guiding block 1 of the flow dividing mechanism near the inner side of the air passage, and the sealing strip 2 is bonded to the guiding block 1 during the cooling operation of the air conditioner. When the flow block 1 moves to the inner side wall of the air duct, the air flow block can be effectively sealed between the air guide block 1 and the inner wall of the air duct system 5, thereby preventing condensation water from being generated on the inner wall of the air conditioner guide block 1 and the air duct system 5, and the air conditioner is improved. The use performance, and the sealing device of the invention has the advantages of simple structure, low cost, good sealing effect, convenient and practical.

　　　如图15所示，本发明第十实施例提出一种空调器用密封装置，与上述第七实施例的区别在于，本实施例中，所述密封条2中的第一夹持片21、第二夹持片22以及密封条2整体一体成型，而且第一夹持片21、第二夹持片22的夹持长度小于图12所示的第一夹持片21、第二夹持片22的夹持长度。As shown in FIG. 15, a tenth embodiment of the present invention provides a sealing device for an air conditioner, which differs from the seventh embodiment in that, in the present embodiment, the first clamping piece 21 in the sealing strip 2, The two clamping pieces 22 and the sealing strip 2 are integrally formed integrally, and the clamping lengths of the first clamping piece 21 and the second clamping piece 22 are smaller than the first clamping piece 21 and the second clamping piece 22 shown in FIG. The clamping length.

　　　其他与第七实施例相同。Others are the same as the seventh embodiment.

　　　结合图9、图10及图11所示，本发明第一实施例还提出一种空调器，包括壳体9，设置在所述壳体9内的换热器10以及至少一风机***4和风道***5，所述风道***5内设有分流机构13，该空调器还包括密封装置，用以在空调器制冷运行时，可以将分流机构13与风道***5内壁之间有效的密封，从而防止空调器导流块1和风道***5内壁产生冷凝水，提高空调器的使用性能。As shown in FIG. 9, FIG. 10 and FIG. 11, the first embodiment of the present invention further provides an air conditioner including a housing 9, a heat exchanger 10 disposed in the housing 9, and at least one fan system 4 and the wind. The channel system 5 is provided with a flow dividing mechanism 13 in the air duct system 5, and the air conditioner further comprises a sealing device for effectively sealing the air distribution mechanism 13 and the inner wall of the air duct system 5 during the air conditioning refrigeration operation. Therefore, condensed water is prevented from being generated on the inner wall of the air conditioner guide block 1 and the air duct system 5, and the performance of the air conditioner is improved.

　　　本实施例中密封装置可以采用上述各实施例所述的空调器用密封装置。In the sealing device of this embodiment, the sealing device for an air conditioner according to each of the above embodiments may be employed.

　　　具体地，在本实施例中，所述空调器包括两套风道***5及风机***4，所述两套风道***5由分流机构分为三个出风口。Specifically, in the embodiment, the air conditioner includes two sets of air duct systems 5 and a fan system 4, and the two sets of air duct systems 5 are divided into three air outlets by a splitting mechanism.

　　　以上述图15所示的密封装置进行举例，本实施例空调器利用密封装置在导流块1转动时，将导流块1与风道***5的内壁之间进行密封的原理如下：Taking the sealing device shown in FIG. 15 as an example, the air conditioner of the present embodiment seals between the flow guiding block 1 and the inner wall of the air duct system 5 when the air guiding block 1 is rotated by the sealing device as follows:

　　　由此，通过上述方案，通过在分流机构的导流块1上靠近风道内侧的一端设置密封条2，在空调器制冷运行时，当导流块1运动到风道内侧壁时，可以将导流块1与风道***5内壁之间有效的密封，从而防止空调器导流块1和风道***5内壁产生冷凝水，提高了空调器的使用性能，而且本发明密封装置结构简单，成本低，密封效果好，方便实用。　　　Therefore, by the above arrangement, by providing the sealing strip 2 at the end of the flow guiding block 1 of the flow dividing mechanism near the inner side of the air duct, when the air guiding unit 1 is moved to the inner side wall of the air duct during the cooling operation of the air conditioner, The effective sealing between the guide block 1 and the inner wall of the air duct system 5 prevents condensed water from being generated on the inner wall of the air conditioner guide block 1 and the air duct system 5, thereby improving the performance of the air conditioner, and the sealing device of the present invention has a simple structure and a cost. Low, good sealing effect, convenient and practical.

　　　如图16所示，本发明第二实施例提出一种空调器，包括壳体9，设置在所述壳体9内的换热器10以及至少一风机***4和风道***5，所述风道***5内设有分流机构13，所述风道***5由所述分流机构13分为至少两个出风口。该空调器还包括密封装置，用以在空调器制冷运行时，可以将分流机构13与风道***5内壁之间有效的密封，从而防止空调器导流块1和风道***5内壁产生冷凝水，提高空调器的使用性能。该密封装置可以采用上述各实施例所述的空调器用密封装置。As shown in FIG. 16, a second embodiment of the present invention provides an air conditioner including a housing 9, a heat exchanger 10 disposed in the housing 9, and at least one fan system 4 and a duct system 5, the wind A bypass mechanism 13 is provided in the road system 5, and the air duct system 5 is divided into at least two air outlets by the flow dividing mechanism 13. The air conditioner further includes a sealing device for effectively sealing the air distribution mechanism 13 and the inner wall of the air duct system 5 during the air conditioner refrigeration operation, thereby preventing condensation of the air conditioner baffle 1 and the inner wall of the air duct system 5 Improve the performance of air conditioners. The sealing device can employ the sealing device for an air conditioner described in each of the above embodiments.

　　　本实施例以上述图1所示的空调器用密封装置进行举例。This embodiment is exemplified by the sealing device for an air conditioner shown in Fig. 1 described above.

　　　具体地，本实施例空调器包括一套风机***4和风道***5。设置在风道***5内的分流机构13通过驱动机构驱动，如图17所示，所述驱动机构包括上驱动机构11及下驱动机构12，所述上驱动机构11及下驱动机构12的一部分连接在所述分流机构13上，另一部分安装在空调器壳体9上。Specifically, the air conditioner of the present embodiment includes a set of fan system 4 and a duct system 5. The flow dividing mechanism 13 disposed in the air duct system 5 is driven by a driving mechanism, as shown in FIG. 17, the driving mechanism includes an upper driving mechanism 11 and a lower driving mechanism 12, and a part of the upper driving mechanism 11 and the lower driving mechanism 12 It is connected to the flow dividing mechanism 13 and the other part is mounted on the air conditioner housing 9.

　　　在本实施例中，分流机构13将风道***5分为出风口a和出风口b，所述分流机构13沿风道外侧向风道内侧呈渐缩结构，在所述分流机构13偏向所述风道内侧的两侧壁上分别贴附有一密封垫7、6，且密封垫7、6覆盖整个分流机构13的侧壁，即密封垫7覆盖分流机构13靠近出风口a的整个侧壁，密封垫6覆盖分流机构13靠近出风口b的整个侧壁。In the present embodiment, the flow dividing mechanism 13 divides the air duct system 5 into an air outlet a and a air outlet b, and the flow dividing mechanism 13 has a tapered structure toward the inner side of the air duct along the outer side of the air duct, and the deflecting mechanism 13 is biased toward the side.

Sealing pads

7, 6 are respectively attached to the two side walls of the inner side of the air duct, and the

sealing pads

7, 6 cover the side walls of the entire flow dividing mechanism 13, that is, the sealing pad 7 covers the entire side wall of the flow dividing mechanism 13 near the air outlet a The gasket 6 covers the entire side wall of the flow dividing mechanism 13 near the air outlet b.

gaskets

　　　作为一种较佳实施方式，密封垫7、6的厚度可以大于或等于1mm。另外，本实施例中密封垫7、6为实体结构。As a preferred embodiment, the thickness of the

gaskets

7, 6 may be greater than or equal to 1 mm. In addition, the

gaskets

7, 6 in the present embodiment have a solid structure.

　　　本实施例空调器利用密封装置在分流机构13移动时，将分流机构13与风道***5的内壁之间进行密封的原理如下：When the air conditioner of the present embodiment uses the sealing device to move the flow dividing mechanism 13, the principle of sealing between the flow dividing mechanism 13 and the inner wall of the air duct system 5 is as follows:

　　　空气气流从机身壳体9外侧进入，然后通过换热器10，再由风机***4吸入到风道***5，然后再由分流机构13进行移动调节，当分流机构13分别沿着移动方向A和移动方向B移动时，在分流机构13运行碰到风道***5的内壁时，此时位于分流机构13上的密封垫7和密封垫6会将分流机构13与风道***5的内壁之间的间隙密封，从而防止空调器在制冷运行时出现冷凝水。　　　The air flow enters from the outside of the fuselage casing 9, passes through the heat exchanger 10, is sucked into the duct system 5 by the fan system 4, and is then moved and adjusted by the splitting mechanism 13, when the splitting mechanism 13 moves along the moving direction A, respectively. When moving in the moving direction B, when the shunting mechanism 13 runs against the inner wall of the duct system 5, the gasket 7 and the gasket 6 located at the shunting mechanism 13 at this time will separate the shunting mechanism 13 from the inner wall of the duct system 5. The gap between the seals prevents the air conditioner from condensing during cooling operation.

　　　本发明实施例多出风口的空调器用密封装置及空调器，通过在分流机构13与风道***5内壁之间增加密封装置，在空调器制冷运行时，当分流机构13运动到风道内侧壁时，可以将分流机构13与风道***5内壁之间有效地密封，从而防止空调器分流机构13侧壁和风道***5内壁产生冷凝水，提高了空调器的使用性能，而且本发明密封装置结构简单，成本低，密封效果好，方便实用。　　　In the embodiment of the present invention, the air conditioner sealing device and the air conditioner of the air outlet are provided with a sealing device between the branching mechanism 13 and the inner wall of the air duct system 5, and when the air conditioner is in the cooling operation, the branching mechanism 13 is moved to the inner side wall of the air duct. At this time, the flow dividing mechanism 13 and the inner wall of the air duct system 5 can be effectively sealed, thereby preventing condensation water from being generated on the side walls of the air conditioner diverting mechanism 13 and the inner wall of the air duct system 5, improving the performance of the air conditioner, and the sealing device of the present invention The utility model has the advantages of simple structure, low cost, good sealing effect, convenient and practical.

　　　上述仅为本发明的优选实施例，并非因此限制本发明的专利范围，凡是利用本发明说明书及附图内容所作的等效结构或流程变换，或直接或间接运用在其它相关的技术领域，均同理包括在本发明的专利保护范围内。The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the invention, and the equivalent structure or process changes made by the present specification and the drawings are directly or indirectly applied to other related technical fields. The same is included in the scope of patent protection of the present invention.

Claims

一种空调器用密封装置，所述空调器包括：至少一风道***、至少一风机***以及设置在所述风道***内的分流机构，空气气流由风机***吸入风道***后，再由分流机构的移动进行分流调节，其特征在于，所述密封装置包括：设置在所述分流机构与所述风道***的风道侧壁之间、在所述分流机构移动至贴近所述风道侧壁时将所述分流机构与风道侧壁之间密封的密封件。 A sealing device for an air conditioner, comprising: at least one air duct system, at least one fan system, and a shunting mechanism disposed in the air duct system, wherein the air airflow is sucked into the air duct system by the fan system, and then shunted a movement adjustment of the mechanism, wherein the sealing device comprises: disposed between the flow dividing mechanism and a side wall of the air duct system, and moves to the air passage side of the air distribution system A seal that seals between the splitting mechanism and the side wall of the duct when the wall is in use.
根据权利要求1所述的空调器用密封装置，其特征在于，所述密封件为密封垫，所述密封垫贴附在所述分流机构偏向所述风道内侧的两侧壁上。The sealing device for an air conditioner according to claim 1, wherein the sealing member is a gasket attached to both side walls of the flow dividing mechanism biased toward the inner side of the air passage.
根据权利要求2所述的空调器用密封装置，其特征在于，所述分流机构沿风道外侧向风道内侧呈渐缩结构。The sealing device for an air conditioner according to claim 2, wherein the flow dividing mechanism has a tapered structure toward the inner side of the air passage along the outer side of the air passage.
根据权利要求3所述的空调器用密封装置，其特征在于，所述密封垫覆盖整个分流机构侧壁；或者，所述密封垫覆盖整个分流机构其中部分侧壁。The sealing device for an air conditioner according to claim 3, wherein the gasket covers the entire side wall of the flow dividing mechanism; or the gasket covers a part of the side wall of the entire flow dividing mechanism.
根据权利要求4所述的空调器用密封装置，其特征在于，所述密封垫覆盖在所述分流机构偏向风道内侧的渐缩角的两侧上，所述密封垫的覆盖长度不超过20mm。The sealing device for an air conditioner according to claim 4, wherein the gasket covers both sides of a taper angle of the side of the flow dividing mechanism toward the inner side of the air duct, and the covering length of the gasket does not exceed 20 mm.
根据权利要求4所述的空调器用密封装置，其特征在于，所述密封垫覆盖在所述分流机构的两侧壁靠近风道外侧段；或者，所述密封垫覆盖在所述分流机构的两侧壁的中间段。The sealing device for an air conditioner according to claim 4, wherein the gasket covers both side walls of the flow dividing mechanism near an outer side of the air passage; or the gasket covers two of the flow dividing mechanisms The middle section of the side wall.
根据权利要求1-6中任一项所述的空调器用密封装置，其特征在于，所述密封垫为软质材料；所述密封垫的厚度大于或等于1mm。The sealing device for an air conditioner according to any one of claims 1 to 4, wherein the gasket is a soft material; and the thickness of the gasket is greater than or equal to 1 mm.
根据权利要求1-6中任一项所述的空调器用密封装置，其特征在于，所述密封垫粘接在所述分流机构的两侧壁上。The sealing device for an air conditioner according to any one of claims 1 to 4, wherein the gasket is bonded to both side walls of the flow dividing mechanism.
根据权利要求1-6中任一项所述的空调器用密封装置，其特征在于，所述密封垫为实体结构，或者，所述密封垫为中空结构。The sealing device for an air conditioner according to any one of claims 1 to 4, wherein the gasket is a solid structure, or the gasket is a hollow structure.
根据权利要求1所述的空调器用密封装置，其特征在于，所述密封垫设置在所述风道内侧壁上。The sealing device for an air conditioner according to claim 1, wherein the gasket is provided on an inner side wall of the duct.
根据权利要求1所述的空调器用密封装置，其特征在于，所述分流机构包括：导流块及设置在所述导流块上使该导流块转动的转轴，所述密封件为一密封条，所述密封条设置在所述导流块靠近风道内侧的一端，在所述导流块转动至风道侧壁时，所述密封条将所述导流块与风道侧壁之间密封。The sealing device for an air conditioner according to claim 1, wherein the flow dividing mechanism comprises: a flow guiding block; and a rotating shaft disposed on the flow guiding block to rotate the flow guiding block, wherein the sealing member is a seal a strip, the sealing strip is disposed at an end of the flow guiding block near the inner side of the air passage, and when the guiding block rotates to the side wall of the air duct, the sealing strip connects the guiding block and the side wall of the air duct Sealed between.
根据权利要求11所述的空调器用密封装置，其特征在于，所述导流块沿风道外侧向风道内侧呈渐缩结构，所述密封条设置在所述导流块靠近风道内侧的一端的渐缩角上。The sealing device for an air conditioner according to claim 11, wherein the flow guiding block has a tapered structure toward the inner side of the air passage along the outer side of the air duct, and the sealing strip is disposed on the inner side of the air guiding duct near the air passage. On the tapered corner of one end.
根据权利要求12所述的空调器用密封装置，其特征在于，所述密封条与所述导流块粘接；或者，所述密封条与所述导流块卡扣连接。The sealing device for an air conditioner according to claim 12, wherein the sealing strip is bonded to the flow guiding block; or the sealing strip is snap-connected to the flow guiding block.
根据权利要求13所述的空调器用密封装置，其特征在于，所述密封条整体为V型或Y型，该密封条包括分别与所述渐缩角的两侧壁贴附的第一夹持片和第二夹持片，以及位于所述渐缩角的尖角处并与所述第一夹持片和第二夹持片相连的密封部；所述第一夹持片和第二夹持片分别与所述渐缩角的两侧壁粘接或卡扣连接。The sealing device for an air conditioner according to claim 13, wherein the sealing strip is entirely V-shaped or Y-shaped, and the sealing strip includes a first clamping attached to each of the side walls of the tapered angle. a sheet and a second clamping piece, and a sealing portion located at a sharp corner of the tapered angle and connected to the first clamping piece and the second clamping piece; the first clamping piece and the second clamping piece The holding pieces are respectively bonded or snap-connected to the two side walls of the tapered angle.
根据权利要求14所述的空调器用密封装置，其特征在于，所述第一夹持片和第二夹持片远离所述密封部的端部分别设有卡扣，所述渐缩角的两侧壁对应位置设有卡槽，所述第一夹持片和第二夹持片通过相应的卡扣与卡槽的配合，分别与所述渐缩角的两侧壁卡扣连接。The sealing device for an air conditioner according to claim 14, wherein the first clamping piece and the second clamping piece are respectively provided with a buckle away from the end of the sealing portion, and two of the tapered angles A card slot is disposed at a corresponding position of the side wall, and the first clamping piece and the second clamping piece are respectively snap-fitted to the two side walls of the tapered angle by the cooperation of the corresponding buckle and the card slot.
根据权利要求15所述的空调器用密封装置，其特征在于，所述密封部为中空结构；所述中空结构的空腔截面为圆形或三角形。The sealing device for an air conditioner according to claim 15, wherein the sealing portion is a hollow structure; and a cavity of the hollow structure has a circular or triangular cross section.
根据权利要求16所述的空调器用密封装置，其特征在于，所述密封条一体成型。The sealing device for an air conditioner according to claim 16, wherein the sealing strip is integrally formed.
一种空调器，包括壳体，设置在所述壳体内的换热器以及至少一风机***和风道***，所述风道***内设有分流机构，所述风道***由所述分流机构分为至少两个出风口，其特征在于，还包括密封装置，所述密封装置包括：设置在所述分流机构与所述风道***的风道侧壁之间、在所述分流机构移动至贴近所述风道侧壁时将所述分流机构与风道侧壁之间密封的密封件。An air conditioner comprising a casing, a heat exchanger disposed in the casing, and at least one fan system and a duct system, wherein the duct system is provided with a diverting mechanism, and the duct system is divided by the diverting mechanism At least two air outlets, further comprising a sealing device, the sealing device comprising: disposed between the flow dividing mechanism and a side wall of the air duct system, and moving in the close to the shunting mechanism The air passage side wall is a seal that seals between the flow dividing mechanism and the side wall of the air duct.
根据权利要求18所述的空调器，其特征在于，所述空调器包括两套风道***及风机***，所述两套风道***由分流机构分为至少三个出风口。The air conditioner according to claim 18, wherein said air conditioner comprises two sets of air duct systems and a fan system, and said two sets of duct systems are divided into at least three air outlets by a flow dividing mechanism.
根据权利要求18所述的空调器，其特征在于，还包括用于驱动所述分流机构的驱动机构，所述驱动机构包括上驱动机构及下驱动机构，所述上驱动机构及下驱动机构的一部分连接在所述分流机构上，另一部分安装在空调器壳体上。The air conditioner according to claim 18, further comprising a driving mechanism for driving said flow dividing mechanism, said driving mechanism comprising an upper driving mechanism and a lower driving mechanism, said upper driving mechanism and said lower driving mechanism One part is connected to the flow dividing mechanism and the other part is mounted on the air conditioner housing.