WO2019206333A1 - Portable air conditioner - Google Patents

Abstract

A movable air conditioner, including a water-sucking area (321), a water tank area (322), and a water-channeling area (330); and including a water block (3926) which is used to isolate the water-sucking area (321) from the water tank area (322) so as to channel water from the water tank area (322) to the water- channeling area (330). The water block (3926) enables the water tank area (322) to store a certain amount of water and prevents the collected water from flowing back to the water-sucking area (321). By means of the channeling effect of the water block (3926) on the water collected on the bottom tray structure, the water block ensures that the water first flows to the water-channeling area (330), thereby increasing the efficiency of the movable air conditioner and extending the service life of the air conditioner.

Description

一种移动空调器Mobile air conditioner 技术领域Technical field

本公开涉及空调技术领域，特别涉及一种移动空调器。The present disclosure relates to the field of air conditioning technology, and in particular, to a mobile air conditioner.

背景技术Background technique

移动空调器相较于传统的立式空调、挂式空调体型更加小巧，无需安装，移动方便，可随意放置在房屋内不同位置。移动空调器具有底盘结构，底盘结构根据其水道可划分为四个区域，分别为：水位控制区、吸水区、水槽区和打水区。其中水槽区与吸水区、打水区连通，水槽区用于缓存底盘结构上的水，打水区内的水可以通过打水轮打到冷凝器翅片蒸发，吸水区内的水通过泵抽出。现有技术的移动空调器，存在底盘结构设计不合理，而影响移动空调的使用效率、使用寿命、使用时长等等问题。Compared with the traditional vertical air conditioners and hanging air conditioners, the mobile air conditioners are smaller and do not need to be installed. They are easy to move and can be placed at different positions in the house. The mobile air conditioner has a chassis structure, and the chassis structure can be divided into four regions according to its water channel, namely: a water level control area, a water absorption area, a water tank area, and a water hitting area. The water tank area is connected with the water absorption area and the water pumping area, and the water tank area is used for buffering the water on the chassis structure. The water in the water pumping area can be pumped to the condenser fins by the water wheel, and the water in the water absorption area is pumped out. . In the prior art mobile air conditioner, there is an unreasonable design of the chassis structure, which affects the use efficiency, service life, and duration of use of the mobile air conditioner.

公开内容Public content

根据本公开的一个方面，提供了一种移动空调器，包括：吸水区、水槽区、打水区，还包括：According to an aspect of the present disclosure, a mobile air conditioner is provided, including: a water absorption zone, a water tank zone, a watering zone, and further comprising:

挡水筋，用于将所述吸水区与所述水槽区隔离，以将所述水槽区中的水引向所述打水区。A water retaining rib for isolating the water absorption zone from the water tank zone to direct water in the water tank zone to the water pumping zone.

通过上述结构，挡水筋将吸水区与水槽区进行隔离，使水槽区可以储存一定的积水，当冷凝器工作时，水槽区的积水可以优先汇聚到打水区，通过打水轮将积水打到冷凝器的翅片上；另一方面，挡水筋可以有效防止积水倒流至吸水区，从而造成打水轮工作时，打水区的冷凝水不足的现象，产生不必要的等待时间。通过挡水筋能够对底盘结构上的水起到引导作用，优先流向打水区，从而提高移动空调器的使用效率，延长使用寿命。Through the above structure, the water retaining rib separates the water absorption area from the water tank area, so that the water tank area can store a certain amount of accumulated water. When the condenser works, the water accumulated in the water tank area can be preferentially concentrated to the water hitting area, and the water wheel will be The water accumulates on the fins of the condenser; on the other hand, the water retaining ribs can effectively prevent the backwater from flowing back to the water absorption area, thereby causing the condensed water in the water pumping area to be insufficient when the water wheel is working, resulting in unnecessary waiting time. . The water retaining rib can guide the water on the chassis structure and preferentially flow to the watering area, thereby improving the use efficiency of the mobile air conditioner and prolonging the service life.

在本公开的一些实施例中，还包括：汇聚部，其位于所述打水区和所述水槽区之间，并靠近所述打水区的汇聚口，用于缓存由所述水槽区引向所述打水区的水。In some embodiments of the present disclosure, the method further includes: a convergence portion located between the water hitting area and the water tank area, and adjacent to the convergence port of the water hitting area, for buffering by the sink area Water to the watering area.

通过上述结构，在积水进入打水区之前，优先将积水引入汇聚部。通过挡水筋与汇聚部的配合，能够对底盘结构上的水起到引导作用，优先流向打水区，从而进一步提高移动空调器的使用效率，延长使用寿命。With the above configuration, the accumulated water is preferentially introduced into the converging portion before the accumulated water enters the water hitting area. Through the cooperation of the water retaining ribs and the convergence part, the water on the chassis structure can be guided, and the water flow direction is preferentially flowed, thereby further improving the use efficiency of the mobile air conditioner and prolonging the service life.

在本公开的一些实施例中，所述吸水区与所述水槽区之间设置有连接通道；In some embodiments of the present disclosure, a connection channel is disposed between the water absorption zone and the water tank zone;

所述挡水筋设置于所述连接通道中，平行于所述连接通道的横截面，位于所述连接通道轴向任意位置。The water retaining rib is disposed in the connecting passage, parallel to a cross section of the connecting passage, at an arbitrary position in the axial direction of the connecting passage.

在本公开的一些实施例中，所述挡水筋与所述连接通道一体成型。In some embodiments of the present disclosure, the water barrier is integrally formed with the connecting passage.

通过上述结构，挡水筋不需要单独制造，减少了加工工序，避免了挡水筋单独制造所带来的额外的成本浪费。With the above structure, the water retaining rib does not need to be separately manufactured, the processing procedure is reduced, and the extra cost waste caused by the separate manufacture of the water retaining rib is avoided.

在本公开的一些实施例中，所述挡水筋插接于所述连接通道。In some embodiments of the present disclosure, the water barrier is inserted into the connecting passage.

通过上述结构，通过将挡水筋***不同的插接部，从而改变吸水区与水槽区的区域大小，调整蓄水量。According to the above configuration, by inserting the water retaining rib into the different insertion portions, the size of the water absorption area and the water tank area is changed, and the water storage amount is adjusted.

在本公开的一些实施例中，所述挡水筋的数量为多个，多个所述挡水筋的高度沿所述水槽区向所述吸水区的方向依次增大。In some embodiments of the present disclosure, the number of the water retaining ribs is plural, and the heights of the plurality of water retaining ribs sequentially increase along the water tank area toward the water absorbing area.

在本公开的一些实施例中，相邻两个挡水筋之间留有间隙，相邻两个挡水筋之间的所述连接通道的底部设置有排水口，所述挡水筋的高度均不高于所述连接通道的上边缘。In some embodiments of the present disclosure, a gap is left between two adjacent water retaining ribs, and a bottom of the connecting passage between two adjacent water retaining ribs is provided with a drain port, and the height of the water retaining rib None of them is higher than the upper edge of the connecting channel.

通过上述结构，一方面，可以减缓积水从水槽区流入吸水区的速度，使积水不足以溢出；另一方面，可以根据打水轮的功率选择高度合适的挡水筋。With the above structure, on the one hand, the speed at which the accumulated water flows into the suction zone from the sink area can be slowed down, so that the accumulated water is insufficient to overflow; on the other hand, the height-adjustable water retaining rib can be selected according to the power of the water wheel.

在本公开的一些实施例中，所述汇聚部为中间低四周高的凹形结构。In some embodiments of the present disclosure, the converging portion is a concave structure that is low in the middle and low in the middle.

通过上述结构，在积水进入打水区之前，优先将积水引入汇聚部，使积水在汇聚部缓存一部分；同时，减缓积水进入打水区的速度，降低打水轮的负载。According to the above structure, before the accumulated water enters the water-storing area, the accumulated water is preferentially introduced into the converging portion, so that the accumulated water is partially buffered in the converging portion; at the same time, the speed at which the accumulated water enters the water-receiving area is reduced, and the load of the water-receiving wheel is reduced.

在本公开的一些实施例中，所述凹形结构由多个汇聚面组合而成，所有所述汇聚面相交于汇聚点，所述汇聚口与所述汇聚点在由所述水槽区向所述汇聚部的方向相互错开。In some embodiments of the present disclosure, the concave structure is composed of a plurality of converging surfaces, all of the converging surfaces intersecting at a convergence point, and the converging port and the converging point are located by the sink area The directions of the convergence sections are staggered from each other.

通过上述结构，可避免积水从汇聚点直接流入打水区，起到较好的积水缓存作用。Through the above structure, it is possible to prevent the accumulated water from flowing directly from the convergence point into the water-sending area, thereby functioning as a better water storage buffer.

在本公开的一些实施例中，所述多个汇聚面包括：均为倾斜设置的汇聚面一、汇聚面二、汇聚面三和汇聚面四，所述凹形结构由所述汇聚面一、所述汇聚面二、所述汇聚面三和所述汇聚面四拼接而成，相邻的汇聚面之 间均呈174度-178度的夹角。In some embodiments of the present disclosure, the plurality of converging surfaces include: a converging surface 1 that is both disposed obliquely, a converging surface 2, a converging surface 3, and a converging surface 4, wherein the concave structure is formed by the converging surface The converging surface 2, the converging surface 3 and the converging surface are spliced together, and the adjacent converging surfaces each have an angle of 174 degrees to 178 degrees.

通过上述结构，可防止相邻的汇聚面之间的夹角太大，使整个汇聚面呈现为平面，不能有效地缓存积水；另一方面，防止相邻的汇聚部之间的夹角太小，造成整个汇聚部太深，缓存积水太多，使积水不能及时进入打水区。With the above structure, the angle between adjacent converging surfaces can be prevented from being too large, so that the entire converging surface appears as a plane, and the accumulated water cannot be effectively buffered; on the other hand, the angle between adjacent converging portions is prevented from being too Small, causing the entire gathering department to be too deep, too much water in the buffer, so that the water can not enter the watering area in time.

在本公开的一些实施例中，所述汇聚面一和所述汇聚面三的倾斜方向为由所述水槽区向所述汇聚部方向由高向低倾斜，其中所述汇聚面一和所述汇聚面三为靠近所述水槽区的汇聚面。In some embodiments of the present disclosure, the direction of inclination of the converging surface 1 and the converging surface 3 is inclined from a high to a low direction of the sink portion toward the converging portion, wherein the converging surface and the The converging surface 3 is a converging surface close to the sink area.

通过上述结构，可将水槽区中的水优先引导至汇聚部，进而使底盘结构上的水优先向打水区处流动。With the above structure, the water in the water tank area can be preferentially guided to the converging portion, and the water on the chassis structure can be preferentially flowed toward the water collecting area.

在本公开的一些实施例中，所述汇聚面为平面或弧形面的至少其中之In some embodiments of the present disclosure, the converging surface is at least one of a plane or a curved surface

汇聚面为平面时，方便汇聚面的加工成型。汇聚面为弧形面时，对积水流入汇聚部产生更好的缓冲。When the converging surface is a flat surface, it is convenient for the processing of the converging surface. When the converging surface is a curved surface, it generates a better buffer for the inflow of water into the converging portion.

在本公开的一些实施例中，所述汇聚部与所述水槽区之间设置有挡水结构，所述挡水结构开设有入水口，所述入水口与所述汇聚点、所述汇聚口沿所述水槽区向所述汇聚部的方向均相互错开。In some embodiments of the present disclosure, a water retaining structure is disposed between the convergence portion and the water tank region, the water retaining structure is provided with a water inlet, the water inlet and the convergence point, the convergence port The direction along the sink area to the converging portion is offset from each other.

通过上述结构，可使积水顺利从水槽区进入汇聚部。According to the above configuration, the accumulated water can smoothly enter the convergence portion from the water tank area.

在本公开的一些实施例中，所述汇聚部与所述打水区之间设置有挡水块，将所述汇聚部与所述打水区隔开，所述挡水块开设有所述汇聚口。In some embodiments of the present disclosure, a water blocking block is disposed between the converging portion and the water-removing area, and the converging portion is separated from the water-removing area, and the water blocking block is opened. Convergence port.

在本公开的一些实施例中，还包括：In some embodiments of the present disclosure, the method further includes:

水位控制区，用于容纳所述打水区溢出的水；a water level control area for accommodating water overflowing in the water pumping area;

至少一个液位开关，位于所述水位控制区上方，用于对所述水位控制区中的水进行监控。At least one level switch is located above the water level control zone for monitoring water in the water level control zone.

通过上述结构，可对底板结构的的水位进行监控，避免水位过高影响移动空调器的正常工作。Through the above structure, the water level of the floor structure can be monitored to prevent the water level from being too high and affecting the normal operation of the mobile air conditioner.

在本公开的一些实施例中，所述液位开关为多个，多个液位开关相对于所述水位控制区的高度不同。In some embodiments of the present disclosure, the liquid level switches are plural, and the plurality of liquid level switches are different in height relative to the water level control zone.

通过上述结构，在各个液位开关触发报警后，保证有足够的时间来使空调做出响应，及时发出调整命令。Through the above structure, after each liquid level switch triggers an alarm, it is ensured that there is enough time for the air conditioner to respond and issue an adjustment command in time.

在本公开的一些实施例中，所述水位控制区包括：多个存水槽，与多个所述液位开关一一对应，用于容纳所述打水区溢出的水；所述液位开关通过固定支架悬挂于所述存水槽上方。In some embodiments of the present disclosure, the water level control area includes: a plurality of water storage tanks, one-to-one corresponding to the plurality of liquid level switches, for accommodating water overflowing in the water pumping area; the liquid level switch Suspended above the water storage tank by a fixing bracket.

在本公开的一些实施例中，所述液位开关的浮子的下表面低于对应存水槽的上边缘。In some embodiments of the present disclosure, the lower surface of the float of the level switch is lower than the upper edge of the corresponding drain.

通过上述结构，保证液位开关在水积满存水槽之前，可以有效地做出响应。Through the above structure, it is ensured that the liquid level switch can effectively respond before the water accumulates in the water tank.

在本公开的一些实施例中，所述存水槽的槽底设置有排水口。In some embodiments of the present disclosure, the bottom of the tank is provided with a drain.

通过上述结构，紧要时刻可以及时地将积水排出，避免潜在的安全隐患，另一方面，方便积水的排出和售后维护。Through the above structure, the accumulated water can be discharged in time to avoid potential safety hazards, and on the other hand, the discharge of the accumulated water and the after-sales maintenance are facilitated.

在本公开的一些实施例中，所述液位开关为一个，所述液位开关为多级液位开关；In some embodiments of the present disclosure, the liquid level switch is one, and the liquid level switch is a multi-level liquid level switch;

所述水位控制区包括：存水槽，所述多级液位开关通过固定支架悬挂于所述存水槽上方。The water level control area includes: a water storage tank, and the multi-level liquid level switch is suspended above the water storage tank by a fixing bracket.

通过上述结构，采取多重保护的模式，增强了对存水槽的水位的监测，同时，对空调进行多重调控，加强了对移动空调的保护。Through the above structure, the multi-protection mode is adopted to enhance the monitoring of the water level of the water storage tank, and at the same time, the air conditioner is subjected to multiple regulation, and the protection of the mobile air conditioner is enhanced.

在本公开的一些实施例中，所述液位开关包括：第一级液位开关和第二级液位开关；所述存水槽包括：第一存水槽和第二存水槽；In some embodiments of the present disclosure, the liquid level switch includes: a first level liquid level switch and a second level liquid level switch; the water storage tank includes: a first water storage tank and a second water storage tank;

所述第一级液位开关悬挂固定于第一存水槽的上方，用于对所述第一存水槽的水位进行监控；The first level liquid level switch is suspended and fixed above the first water storage tank for monitoring the water level of the first water storage tank;

所述第二级液位开关悬挂固定于第二存水槽的上方，用于对所述第二存水槽的水位进行监控；The second level liquid level switch is suspended and fixed above the second water storage tank for monitoring the water level of the second water storage tank;

当所述第一存水槽存水的水位上升、所述第一级液位开关的浮子上升到达一级报警位置时，触发一级报警信号；当所述第二存水槽存水的水位上升、所述二级液位开关的浮子上浮到达二级报警位置时，触发二级报警信号。When the water level of the first water storage tank rises and the float of the first level liquid level switch rises to reach the first-level alarm position, the first-level alarm signal is triggered; when the water level of the second water storage tank rises, When the float of the two-level liquid level switch reaches the secondary alarm position, the secondary alarm signal is triggered.

在本公开的一些实施例中，所述第一存水槽与所述第二存水槽的深度不同。In some embodiments of the present disclosure, the first water storage tank is different in depth from the second water storage tank.

通过上述结构，一方面，可以更好的节省空间；另一方面，使第一存水槽在一级报警之前可以储存尽量多的积水。Through the above structure, on the one hand, space can be saved better; on the other hand, the first water storage tank can store as much water as possible before the first level alarm.

在本公开的一些实施例中，所述吸水区的底部设置有凹槽；In some embodiments of the present disclosure, the bottom of the suction zone is provided with a groove;

所述移动空调器还包括：排水结构，用于排出所述凹槽中的水。The mobile air conditioner further includes a drainage structure for discharging water in the groove.

通过上述结构，能够将冷凝水排出到空调机外，增长空调内部金属部件使用寿命。With the above configuration, the condensed water can be discharged to the outside of the air conditioner, and the service life of the metal parts inside the air conditioner can be increased.

在本公开的一些实施例中，所述排水结构包括：In some embodiments of the present disclosure, the drainage structure comprises:

过滤组件，安装在所述凹槽内，用于过滤所述凹槽内的水；a filter assembly installed in the recess for filtering water in the recess;

水泵，连接所述过滤组件，用于吸取经所述过滤组件过滤的水；a water pump connected to the filter assembly for absorbing water filtered by the filter assembly;

排水嘴结构，连接所述水泵，所述水泵吸取的水经所述排水嘴结构排出。a drain nozzle structure connecting the water pump, and the water sucked by the water pump is discharged through the drain nozzle structure.

通过上述结构，底盘结构上的挡水筋、汇聚部、存水槽、凹槽等结构，能够对底盘结构上的水进行合理的规划，有效调度冷凝水优先从水槽区流向打水区，其次流向水位控制区，最后流向吸水区，并在水量过多时，进行分级报警，延长使用时间，减少停机时间；增加底盘的结构合理性，提高制冷效率，增长使用时间。Through the above structure, the structure of the water retaining rib, the gathering part, the water storage tank, the groove and the like on the chassis structure can reasonably plan the water on the chassis structure, and effectively dispatch the condensed water preferentially from the water tank area to the water hitting area, and secondly, the flow direction The water level control area finally flows to the water absorption area, and when the water quantity is too much, the grading alarm is issued to prolong the use time and reduce the downtime; increase the structural rationality of the chassis, improve the cooling efficiency, and increase the use time.

在本公开的一些实施例中，所述水槽区内设置有至少一条支撑筋。In some embodiments of the present disclosure, at least one support rib is disposed in the sink region.

通过上述结构，支撑筋用于支撑放置于其上部的冷凝器，同时给水槽区留出容置水的空间，且支撑筋能够阻挡热风从水槽区吹过，从而使热风更集中的吹在冷凝器上，减少风力流失。With the above structure, the support ribs are used to support the condenser placed on the upper portion thereof, while leaving a space for accommodating water to the water tank area, and the support ribs can block the hot air from blowing through the water tank area, so that the hot air is more concentrated and blown in the condensation. On the device, reduce wind loss.

在本公开的一些实施例中，所述打水区包括：打水结构，用于挥洒所述打水区中的水。In some embodiments of the present disclosure, the watering zone includes a watering structure for swaying water in the watering zone.

在本公开的一些实施例中，所述打水结构包括：In some embodiments of the present disclosure, the watering structure includes:

打水槽，用于积聚水；Water tank for accumulating water;

至少一打水轮，至少部分的容置于所述打水槽内，用于挥洒所述打水槽内积聚的水；At least one water wheel is at least partially disposed in the water tank for swaying water accumulated in the water tank;

打水电机，与所述打水轮连接，并驱动所述打水轮转动。The water motor is connected to the water wheel and drives the water wheel to rotate.

在本公开的一些实施例中，所述至少一打水轮包括：第一打水轮，第二打水轮，第三打水轮；所述第一打水轮、所述第二打水轮和所述第三打水轮均设置于所述打水槽上方；所述第一打水轮和所述第二打水轮转动方向相同，所述第三打水轮与所述第一打水轮或所述第二打水轮的转动方向相反。In some embodiments of the present disclosure, the at least one water wheel comprises: a first water wheel, a second water wheel, a third water wheel; the first water wheel, the second water pump The wheel and the third water wheel are disposed above the water tank; the first water wheel and the second water wheel rotate in the same direction, and the third water wheel and the first water wheel The water wheel or the second water wheel rotates in the opposite direction.

为使本公开的上述目的、特征和优点能更明显易懂，下文特举优选实施例，并配合所附附图，作详细说明如下。The above described objects, features and advantages of the present invention will become more apparent from the following description.

附图说明DRAWINGS

为了更清楚地说明本公开实施例的技术方案，下面将对实施例中所需要使用的附图作简单地介绍。应当理解，以下附图仅示出了本公开的某些实施例，因此不应被看作是对范围的限定。对于本领域普通技术人员来讲，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相关的附图。In order to more clearly illustrate the technical solutions of the embodiments of the present disclosure, the drawings to be used in the embodiments will be briefly described below. It is understood that the following drawings are merely illustrative of certain embodiments of the present invention and are not intended to Other relevant figures may also be obtained from those of ordinary skill in the art in light of the inventive work.

图1为本公开一实施例底盘结构的整体示意图；1 is a schematic overall view of a chassis structure according to an embodiment of the present disclosure;

图2为图1所示底盘结构的局部示意图一；Figure 2 is a partial schematic view of the chassis structure of Figure 1;

图3为本公开一实施例底盘结构的插接部结构示意图；3 is a schematic structural view of a plug portion of a chassis structure according to an embodiment of the present disclosure;

图4为图1所示底盘结构的局部示意图二；Figure 4 is a partial schematic view of the chassis structure of Figure 1;

图5为本公开一实施例底盘结构的汇聚部的示意图；FIG. 5 is a schematic diagram of a convergence portion of a chassis structure according to an embodiment of the present disclosure; FIG.

图6为本公开一实施例底盘结构的打水轮安装位置示意图；6 is a schematic view showing a mounting position of a water wheel of a chassis structure according to an embodiment of the present disclosure;

图7为本公开一实施例底盘结构的打水槽的结构示意图一；7 is a schematic structural view 1 of a water tank of a chassis structure according to an embodiment of the present disclosure;

图8为本公开一实施例底盘结构的打水槽的结构示意图二；8 is a schematic structural view 2 of a water tank of a chassis structure according to an embodiment of the present disclosure;

图9为本公开另一实施例底盘结构的打水轮的结构示意图；9 is a schematic structural view of a water wheel of a chassis structure according to another embodiment of the present disclosure;

图10a为图9所示打水轮的俯视图状态一；Figure 10a is a top view of the water wheel of Figure 9;

图10b为本公开另一实施例底盘结构的打水轮的俯视图状态二；FIG. 10b is a top view of the water wheel of the chassis structure according to another embodiment of the present disclosure; FIG.

图11为本公开另一实施例底盘结构的液位开关的紧固装置的整体示意图；11 is a schematic overall view of a fastening device for a liquid level switch of a chassis structure according to another embodiment of the present disclosure;

图12为本公开另一实施例底盘结构的螺钉柱的示意图；12 is a schematic view of a screw post of a chassis structure according to another embodiment of the present disclosure;

图13为本公开另一实施例底盘结构的液位开关与液位开关固定支架的连接示意图；13 is a schematic view showing the connection of a liquid level switch and a liquid level switch fixing bracket of a chassis structure according to another embodiment of the present disclosure;

图14为本公开另一实施例底盘结构的液位开关的整体示意图；14 is a schematic overall view of a liquid level switch of a chassis structure according to another embodiment of the present disclosure;

图15为本公开另一实施例底盘结构的水位控制区示意图；15 is a schematic diagram of a water level control area of a chassis structure according to another embodiment of the present disclosure;

图16为本公开另一实施例底盘结构的多级液位开关示意图一；16 is a first schematic diagram of a multi-stage liquid level switch of a chassis structure according to another embodiment of the present disclosure;

图17为本公开另一实施例底盘结构的多级液位开关示意图二；17 is a second schematic diagram of a multi-stage liquid level switch of a chassis structure according to another embodiment of the present disclosure;

图18为本公开另一实施例底盘结构的浮子的示意图；18 is a schematic view of a float of a chassis structure according to another embodiment of the present disclosure;

图19为本公开再一实施例底盘结构的排水结构的结构示意图；19 is a schematic structural view of a drainage structure of a chassis structure according to still another embodiment of the present disclosure;

图20为本公开再一实施例底盘结构的凹槽位置示意图；20 is a schematic view showing the position of a groove of a chassis structure according to still another embodiment of the present disclosure;

图21为本公开再一实施例底盘结构的过滤组件示意图；21 is a schematic diagram of a filter assembly of a chassis structure according to still another embodiment of the present disclosure;

图22为图21的A处放大图；Figure 22 is an enlarged view of A of Figure 21;

图23为本公开再一实施例底盘结构的排水嘴结构示意图；23 is a schematic structural view of a drain nozzle of a chassis structure according to still another embodiment of the present disclosure;

图24为本公开再一实施例底盘结构的排水嘴结构安装示意图；24 is a schematic view showing the installation of a drain nozzle structure of a chassis structure according to still another embodiment of the present disclosure;

图25为本公开再一实施例底盘结构的排水嘴缺口的示意图；25 is a schematic view showing a notch of a drain nozzle of a chassis structure according to still another embodiment of the present disclosure;

图26为本公开再一实施例底盘结构的带缺口的排水嘴安装示意图；26 is a schematic view showing the installation of a notched drain nozzle of a chassis structure according to still another embodiment of the present disclosure;

图27为本公开再一实施例底盘结构的外接缺口件的结构示意图；27 is a schematic structural view of an external notch member of a chassis structure according to still another embodiment of the present disclosure;

图28为本公开再一实施例底盘结构的支撑筋的示意图。28 is a schematic view of a support rib of a chassis structure according to still another embodiment of the present disclosure.

图29为本公开再一实施例底盘结构的多个挡水筋结构示意图；29 is a schematic structural view of a plurality of water retaining ribs of a chassis structure according to still another embodiment of the present disclosure;

图30为本公开再一实施例底盘结构的挡水筋结构示意图。FIG. 30 is a schematic structural view of a water retaining rib of a chassis structure according to still another embodiment of the present disclosure.

【符号说明】【Symbol Description】

321-吸水区，322-水槽区，330-打水区，313-水位控制区，323-凹槽，3925-连接通道，3926-挡水筋，325-第一挡水筋，326-第二挡水筋，327-第三挡水筋，328-第四挡水筋，329-第五挡水筋，320-插接部，39261-缺口；331-汇聚口，332-汇聚部，333-汇聚点，334-入水口，335-挡水块，336-汇聚面一，337-汇聚面二，338-汇聚面三，339-汇聚面四，3310-挡水结构，315-打水轮，316-打水槽，317-打水电机，318-槽体，319-台阶结构，3110-第一挡片，3111-第二挡片，3112-第一槽段，3113-第二槽段；3911-螺钉柱，3912-液位开关固定支架，3913-液位开关，39111-大柱，39112-小柱，39113-螺纹孔，39121-连接脚，39122-通孔，39123-侧边，39124-端面，39131-连接杆，3921-第一级液位开关，3922-第二级液位开关，3943-液位开关支架一，3944-液位开关支架二，3945-螺钉柱一，3946-螺钉柱二，3947-第一存水槽，3948-第二存水槽，3930-多级液位开关，3931-浮球，3932-一级浮子，3933-二级浮子，3934-三级浮子，3935-卡环，3936-导向杆，3937-导轨，3938-连接杆，3939-多级液位开关固定支架，39311-一环，39312-导槽，39313-二环；361-过滤组件，362-水泵，363-排水嘴结构，364-第一连通管道，365-第二连通管道，366-过滤器，367-固定组件，368-连接环套，3671-面盖，3672-固定臂，3673-中空管道，3610-安装架，3611-水盖，3613-固定板，3614-排水口接头，3615-固定槽，3616-定位孔，3617-定位部，341-排水嘴本体，342-外置出水口，346-外接缺口件，347-引水柱，633-支撑筋。321-sucking zone, 322-sink zone, 330-watering zone, 313-water level control zone, 323-groove, 3925-connecting channel, 3926-shield rib, 325-first water retaining rib, 326-second Water retaining rib, 327-third water retaining rib, 328-fourth water retaining rib, 329- fifth water retaining rib, 320-plug joint, 39261-notch; 331-convergence port, 332-convergence, 333- Convergence point, 334-inlet, 335-block, 336-convergence, 337-convergence 2, 338-convergence 3, 339-convergence 4, 3310-water retaining structure, 315-water wheel, 316-sink, 317-water motor, 318-slot, 319-step structure, 3110-first baffle, 3111-second baffle, 3112-first trough section, 3113-second trough section; 3911 - Screw column, 3912-level switch mounting bracket, 3913-level switch, 39111-large column, 39112-column, 39113-threaded hole, 39121-connecting leg, 39122-through hole, 39123-side, 39124- End face, 39131-connecting rod, 3921 first level liquid level switch, 3922 second level liquid level switch, 3943 liquid level switch bracket one, 3944 liquid level switch bracket two, 3945-screw column one, 3946-screw Column 2, 3947 - first storage tank, 3948 - second storage tank, 3930-multi-level liquid level switch, 3931-float ball, 3932-level one-stage float, 3933-level two-stage float, 3934-three-stage float, 3935- snap ring, 3936-guide rod, 3937-rail, 3938-connecting rod, 3939-Multi-level liquid level switch fixing bracket, 39311-one ring, 39312-channel, 39313-two ring; 361-filter assembly, 362-water pump, 363-drain structure, 364-first connecting pipe, 365- Two-connected pipe, 366-filter, 367-fixed component, 368-connecting ring sleeve, 3671-face cover, 3672-fixed arm, 3673- hollow pipe, 3610-mounting frame,3611-water cover,3613-fixed plate, 3614-drain connection, 3615-fixing groove, 3616-positioning hole, 3617-positioning part, 341-drain nozzle body, 342-external water outlet, 346-external notch, 347-water column, 633-supporting rib.

具体实施方式detailed description

为使本公开的目的、技术方案和优点更加清楚明白，以下结合具体实施例，并参照附图，对本公开进一步详细说明。其中一些但并非全部的实施例将被示出。实际上，本公开的各种实施例可以许多不同形式实现，而不应被解释为限于此数所阐述的实施例。在不冲突的情况下，本公开中的实施例及实施例中的特征可以相互组合。The present disclosure will be further described in detail below with reference to the specific embodiments thereof and the accompanying drawings. Some, but not all, of the embodiments will be shown. In fact, the various embodiments of the present disclosure can be implemented in many different forms and should not be construed as limited to the embodiments set forth herein. The embodiments of the present disclosure and the features of the embodiments may be combined with each other without conflict.

需要说明的是，在本公开的实施例中所提到的所有的方向或位置关系为基于附图的位置关系，仅为了方便描述本公开和简化描述，而不是明示或者暗示所指的装置或元件必须具有的特定的方向和位置关系，不能理解为对本公开的限制。文中所述的“第一”和“第二”是用于区别类似的对象，并不是用于描述先后次序。It should be noted that all the orientations or positional relationships mentioned in the embodiments of the present disclosure are based on the positional relationship of the drawings, and the description and the simplified description are merely for convenience of description, and are not intended to express or suggest the device or The particular orientation and positional relationship that the components must have is not to be construed as limiting the disclosure. The terms "first" and "second" are used to distinguish similar objects and are not intended to describe the order of precedence.

在本公开的一个实施例中，提供了一种移动空调器，移动空调器包括一底盘结构，底板结构包括一底板，结合图1至图3所示，底盘结构还包括：形成于底板结构底板上的吸水区321，水位控制区313、水槽区322和打水区330；底盘结构还包括：In an embodiment of the present disclosure, a mobile air conditioner is provided. The mobile air conditioner includes a chassis structure. The bottom plate structure includes a bottom plate. As shown in FIG. 1 to FIG. 3, the chassis structure further includes: a bottom plate formed on the bottom plate. The upper water absorption area 321 , the water level control area 313 , the water tank area 322 and the water pumping area 330 ; the chassis structure further includes:

一连接通道3925，设置于吸水区321与水槽区322之间，用于吸水区321与水槽区322的连通。A connecting channel 3925 is disposed between the water absorbing area 321 and the water tank area 322 for communication between the water absorbing area 321 and the water tank area 322.

至少一挡水筋3926，设置于连接通道3925中，平行于连接通道3925的横截面位于连接通道3925轴向任意位置，用于将吸水区321与水槽区322隔离。At least one water retaining rib 3926 is disposed in the connecting passage 3925, and a cross section parallel to the connecting passage 3925 is located at an arbitrary position in the axial direction of the connecting passage 3925 for isolating the water absorbing region 321 from the water tank region 322.

采用挡水筋3926将吸水区321与水槽区322进行隔离，使水槽区322可以储存一定的积水，当冷凝器工作时，水槽区322的积水可以优先汇聚到打水区330，通过打水轮将积水打到冷凝器的翅片上，也可以有效防止积水倒流至吸水区321，从而在打水轮工作时，避免打水区330的冷凝水不足的现象发生，带来不必要的等待时间。The water absorbing zone 321 is separated from the water tank area 322 by the water retaining rib 3926, so that the water tank area 322 can store a certain amount of accumulated water. When the condenser is working, the water accumulated in the water tank area 322 can be preferentially concentrated to the water collecting area 330, by playing The water wheel hits the fins of the condenser, and can effectively prevent the backwater from flowing back to the water absorption area 321, so that when the water wheel works, the condensed water shortage of the water receiving area 330 is avoided, which brings unnecessary waiting time.

本实施例中，吸水区321的底部设置有凹槽323。这样设置的好处在于，吸水区321设置有凹槽323，当积水过多时，凹槽323可以有效缓存一部分积水。In the present embodiment, the bottom of the suction region 321 is provided with a recess 323. The advantage of this arrangement is that the suction zone 321 is provided with a recess 323 which can effectively buffer a portion of the accumulated water when there is too much water.

在本实施例中，挡水筋3926包括两种布置形式，其一，挡水筋3926与连接通道3925是一个整体，二者一体成型，挡水筋3926不需要单独制 造，减少了加工工序，避免了挡水筋3926的单独制造所带来的额外的成本浪费。其二，挡水筋3926为独立结构，其与所述连接通道3925上设置的至少一个插接部320配合，通过将所述挡水筋3926***不同的插接部320，从而改变吸水区321与水槽区322的区域大小，调整蓄水量。In the present embodiment, the water retaining rib 3926 includes two arrangements. First, the water retaining rib 3926 and the connecting passage 3925 are integrally formed, and the two are integrally formed, and the water retaining rib 3926 does not need to be separately manufactured, thereby reducing the processing procedure. The additional cost waste associated with the separate manufacture of the water barrier 3926 is avoided. Secondly, the water retaining rib 3926 is a self-contained structure that cooperates with at least one plug portion 320 provided on the connecting passage 3925, and the water absorbing portion 321 is changed by inserting the water retaining rib 3926 into the different plug portion 320. With the size of the area of the sink area 322, the amount of water storage is adjusted.

进一步地，结合图4、图5所示，底盘结构还包括：汇聚部332，其用于将水槽区322和打水区330连通，其位于打水区330和水槽区322之间，并靠近打水区330的汇聚口331。汇聚部332中的积水可经汇聚口331流入打水区330。Further, as shown in FIG. 4 and FIG. 5, the chassis structure further includes: a convergence portion 332 for communicating the water tank area 322 and the water catching area 330 between the water hitting area 330 and the water tank area 322, and close to The convergence port 331 of the water hitting area 330. The accumulated water in the converging portion 332 can flow into the water collecting area 330 through the converging port 331.

汇聚部332为中间低四周高的凹形结构，这样设置的好处在于，在积水进入打水区330之前，优先将积水引入汇聚部332，使积水在汇聚部332缓存一部分；同时，缓解积水进入打水区330的速度，降低打水轮的负载。The converging portion 332 is a concave structure having a low circumference in the middle, and the arrangement is advantageous in that the accumulated water is preferentially introduced into the converging portion 332 before the accumulated water enters the water collecting portion 330, so that the accumulated water is partially buffered in the converging portion 332; Relieve the speed at which the accumulated water enters the water-storing area 330 and reduce the load on the water wheel.

在本实施例中，汇聚部332的凹形结构由多个汇聚面拼接而成。例如在图5中，汇聚面包括：汇聚面一336、汇聚面二337、汇聚面三338和汇聚面四339，四个汇聚面拼接成二维阵列，汇聚面均为倾斜设置，相邻的汇聚面之间均呈现为一定的夹角，所有汇聚面相交于汇聚点333。这样设置的好处在于，使积水在进入打水区330之前，可以在汇聚部332缓存一部分积水；同时，可以减缓积水流入打水区330的速度。进一步的，相邻的汇聚面之间的夹角的度数为174度-178度。这样设置的好处在于，防止相邻的汇聚面之间的夹角太大，使整个汇聚面呈现为平面，不能有效地缓存积水；另一方面，防止相邻的汇聚部332之间的夹角太小，造成整个汇聚部332太深，缓存积水太多，使积水不能及时进入打水区330。In this embodiment, the concave structure of the converging portion 332 is formed by splicing a plurality of converging surfaces. For example, in FIG. 5, the convergence surface includes: a convergence surface 336, a convergence surface 337, a convergence surface 338, and a convergence surface 339. The four convergence surfaces are spliced into a two-dimensional array, and the convergence surfaces are all inclined, adjacent. The convergence faces are presented with a certain angle, and all the convergence faces intersect at the convergence point 333. This arrangement has the advantage that a portion of the accumulated water can be buffered in the converging portion 332 before entering the water hitting area 330; at the same time, the speed at which the accumulated water flows into the water hitting area 330 can be slowed down. Further, the angle between the adjacent converging surfaces is 174 degrees - 178 degrees. The advantage of such an arrangement is that the angle between the adjacent converging surfaces is prevented from being too large, so that the entire converging surface is rendered flat, and the water accumulation cannot be effectively buffered; on the other hand, the sandwich between the adjacent converging portions 332 is prevented. The angle is too small, causing the entire convergence portion 332 to be too deep, and too much water is accumulated in the buffer, so that the accumulated water cannot enter the watering area 330 in time.

在本实施例中，汇聚面一336和汇聚面三338的倾斜方向为：沿水槽区322向汇聚部332的方向，由高向低倾斜，进而将水槽区322处的水，优先引导至汇聚部332，进而使底盘上的水优先向打水区330处流动。In this embodiment, the direction of the convergence of the converging surface 336 and the converging surface 338 is: in the direction of the sinking portion 322 toward the converging portion 332, tilting from high to low, and then preferentially guiding the water at the sink portion 322 to the gathering. Portion 332, in turn, preferentially directs water on the chassis to the watering zone 330.

在本实施例中，汇聚面为平面，所有汇聚面相交于汇聚点333。这样设置的好处在于，方便汇聚面的加工成型。In this embodiment, the convergence surface is a plane, and all the convergence surfaces intersect at the convergence point 333. The advantage of this arrangement is that it facilitates the forming of the converging surface.

在本实施例中，汇聚面为弧形面，所有汇聚面相交于汇聚点333，对积水流入汇聚部332产生更好的缓冲。进而，汇聚部332的凹形结构呈现为圆底锅形结构，使积水在进入打水区330之前，可以在汇聚部332缓存一部分积水；同时，可以减缓积水流入打水区330的速度。此外，圆底的 设计也避免了泥沙积聚在一点难以清洗的现象的发生。In the present embodiment, the converging surface is a curved surface, and all of the converging surfaces intersect at the converging point 333, which produces a better cushioning of the accumulated inflow into the converging portion 332. Further, the concave structure of the converging portion 332 is presented as a round bottom pot-shaped structure, so that the accumulated water can buffer a part of the accumulated water in the converging portion 332 before entering the water hitting area 330; at the same time, the stagnant water can be slowed down into the water hitting area 330. speed. In addition, the design of the round bottom also avoids the accumulation of sediment at a point that is difficult to clean.

在本实施例中，汇聚部332与打水区330之间设置有挡水块335，将汇聚部332与打水区330隔开，挡水块335开设有汇聚口331，汇聚口331与汇聚点333位置在由水槽区322向汇聚部332的方向相互错开，从而避免积水从汇聚点333直接流入打水区330，起到较好的积水缓存作用。In this embodiment, a water blocking block 335 is disposed between the converging portion 332 and the water-removing area 330, and the converging portion 332 is separated from the water-sending area 330. The water blocking block 335 is provided with a converging port 331, and the converging port 331 is converged. The position of the point 333 is offset from each other by the water tank area 322 toward the converging portion 332, thereby preventing the accumulated water from flowing directly from the converging point 333 into the water-removing area 330, thereby functioning as a better water storage buffer.

在本实施例中，汇聚部332与水槽区322之间设置有挡水结构3310，挡水结构3310开设有入水口334，入水口334与汇聚点333位置沿水槽区322向汇聚部332的方向相互错开，且入水口334和汇聚口331位置沿水槽区322向汇聚部332的方向相互错开，从而使积水先经过汇聚点333，然后从汇聚点333流入汇聚口331，使积水在汇聚点333有所缓冲，避免积水直接流入汇聚口331。In the present embodiment, a water retaining structure 3310 is disposed between the convergence portion 332 and the water tank region 322, and the water retaining structure 3310 is provided with a water inlet 334, and the water inlet 334 and the convergence point 333 are located along the water tank region 322 toward the convergence portion 332. The water inlets 334 and the convergence ports 331 are offset from each other in the direction of the pool portion 332 toward the converging portion 332, so that the water accumulates first through the converging point 333, and then flows from the converging point 333 into the converging port 331 to cause the water to accumulate. Point 333 is buffered to prevent stagnant water from flowing directly into the converging port 331.

在本实施例中，汇聚部332周围设置有挡水结构3310，挡水结构3310将水槽区322与汇聚部332隔开，挡水结构3310开设有多个入水口334，入水口334设置于汇聚部332水位相对汇聚点333较高的位置，入水口334与汇聚点333错开，而且入水口334和汇聚口331错开。这样设置的好处在于，使积水顺利从水槽区322进入汇聚部332。In the present embodiment, a water retaining structure 3310 is disposed around the convergence portion 332. The water retaining structure 3310 separates the water tank region 322 from the convergence portion 332. The water retaining structure 3310 defines a plurality of water inlets 334, and the water inlet 334 is disposed at the convergence. The water level 334 is at a higher position relative to the convergence point 333, the water inlet 334 is offset from the convergence point 333, and the water inlet 334 and the convergence port 331 are staggered. The advantage of this arrangement is that the accumulated water smoothly enters the converging portion 332 from the sink region 322.

本实施例的移动空调器还包括一打水结构，其用于将冷凝水挥洒至冷凝器翅片上，结合图6至图8所示，打水结构位于打水区330，包括：一打水槽316，其用于积聚冷凝水；至少一打水轮315，其至少部分的容置于打水槽316内，并将打水槽316内积聚的冷凝水进行挥洒；一打水电机317，其与打水轮315连接，并驱动打水轮315转动；打水槽316底面为槽体318，槽体318沿打水轮315的径向方向自两端向中间凹陷，进而形成两侧高中间低的凹槽结构；槽体318的结构形式，能够使流入槽体318的冷凝水聚集在槽体318的底部，有利于消除打水槽316的积水死角，避免部分冷凝水的闲置浪费，使打水轮315能够尽可能的将槽体318内聚集的冷凝水打到冷凝器的翅片上，提高打水轮315的工作效率。The mobile air conditioner of this embodiment further includes a water-washing structure for squeezing the condensed water onto the condenser fins. As shown in FIG. 6 to FIG. 8, the water-washing structure is located in the water-storing area 330, including: a dozen water tanks 316, for accumulating condensed water; at least one water wheel 315, at least partially accommodated in the water tank 316, and condensed water accumulated in the water tank 316; a dozen water motor 317, which is playing The water wheel 315 is connected and drives the water wheel 315 to rotate; the bottom surface of the water tank 316 is a tank body 318, and the tank body 318 is recessed from the two ends in the radial direction of the water wheel 315, thereby forming a concave portion on both sides. The structure of the trough body 318 can accumulate the condensed water flowing into the trough body 318 at the bottom of the trough body 318, which is beneficial to eliminating the dead water of the water tank 316 and avoiding the waste of some condensed water, so that the water wheel 315 can as much as possible to condense the condensed water accumulated in the tank body 318 onto the fins of the condenser to improve the working efficiency of the water wheel 315.

在本实施例中，槽体318的凹槽结构为与打水轮315外形相契合的弧形结构。In the present embodiment, the groove structure of the groove body 318 is an arc structure that conforms to the outer shape of the water wheel 315.

槽体318包括第一槽段3112和第二槽段3113；第一槽段3112为向下倾斜的平滑斜面，使得冷凝水能快速地流入打水槽316中；第二槽段3113 为与打水轮315外形相契合的弧形曲面，第一槽段3112的底端与第二槽段3113的一端平滑连接，第一槽段3112的最底端高于第二槽段3113的最底端，第二槽段3113曲面的底部处于相对槽体318的最低位。The tank body 318 includes a first trough section 3112 and a second trough section 3113; the first trough section 3112 is a downwardly inclined smooth slope so that condensed water can quickly flow into the water tap 316; the second trough section 3113 is watered The bottom end of the first slot section 3112 is smoothly connected with one end of the second slot section 3113, and the bottom end of the first slot section 3112 is higher than the bottom end of the second slot section 3113. The bottom of the curved surface of the second slot segment 3113 is at the lowest position relative to the slot 318.

在本实施例中，第二槽段3113的周向形状与打水轮315的周向形状相适应，打水轮315安装在第二槽段3113的底面上方，使得打水轮315的打水效率更高。In the present embodiment, the circumferential shape of the second groove segment 3113 is adapted to the circumferential shape of the water wheel 315, and the water wheel 315 is mounted above the bottom surface of the second groove segment 3113 so that the water pump 315 is watered. higher efficiency.

在本实施例中，第二槽段3113远离第一槽段3112的一端平齐或者高于第二槽段3113的另一端，随着打水轮315的转动，冷凝液可以直接流入槽体318的第二槽段3113中，并聚集在底端。In this embodiment, the second slot section 3113 is flush with one end of the first slot section 3112 or higher than the other end of the second slot section 3113. As the water wheel 315 rotates, the condensate can directly flow into the slot body 318. The second slot section 3113 is gathered at the bottom end.

两种槽段相配合，使得冷凝水可以更好的流入槽体318的同时，消除了槽体318的打水死角，使得打水槽316的结构性能更好。The two trough sections are matched so that the condensed water can flow into the trough body 318 better, and the water inrush angle of the trough body 318 is eliminated, so that the structural performance of the water tank 316 is better.

打水槽316还包括一台阶结构319，台阶结构319的顶部还设有一缓冲台面，缓冲台面向打水槽316侧稍作延伸，与槽体318相连接，便于冷凝水聚集在槽体318中。The water tank 316 further includes a step structure 319. The top of the step structure 319 is further provided with a buffering surface. The buffer platform extends slightly toward the side of the water tank 316 and is connected with the tank body 318 to facilitate the accumulation of condensed water in the tank body 318.

在本实施例中，缓冲台面包括第一侧面和第二侧面，第一侧面与第二侧面位于缓冲台面相对的两侧，该相对的两侧包括面向水槽区322的一侧、与面向打水区330的一侧，第一侧面与第二侧面向外倾斜，第二侧面与槽体318衔接。向外倾斜是指朝向底板倾斜。In this embodiment, the buffering table includes a first side surface and a second side surface, the first side surface and the second side surface are located on opposite sides of the buffering table surface, and the opposite sides include a side facing the water tank area 322, and facing the water On one side of the region 330, the first side and the second side are outwardly inclined, and the second side is engaged with the groove 318. Tilting outward means tilting toward the bottom plate.

槽体318的凹陷两侧(即沿打水轮315轴向的两侧)还设有第一挡片3110和第二挡片3111，第一挡片3110和第二挡片3111的高于打水槽316，第一挡片3110和第二挡片3111可以限制冷凝水的流通路径。The two sides of the recessed body 318 (ie, the two sides along the axial direction of the water wheel 315) are further provided with a first blocking piece 3110 and a second blocking piece 3111, and the first blocking piece 3110 and the second blocking piece 3111 are higher than the playing The water tank 316, the first flap 3110 and the second flap 3111 can restrict the flow path of the condensed water.

在本实施例中，第一挡片3110和第二挡片3111的顶端设有一个或多个缺口，便于冷凝水聚集在打水槽316中。In the present embodiment, the top ends of the first flap 3110 and the second flap 3111 are provided with one or more notches to facilitate the accumulation of condensed water in the water tap 316.

第一挡片3110和第二挡片3111背向槽体318的侧面下方皆为一水台，水台相对于底板的竖直高度高于槽体318，第一挡片3110和第二挡片3111的缺口深度与水台台面相平齐，便于液体流入槽体318中。所述“竖直高度”是指垂直于底盘结构方向的长度。The first baffle 3110 and the second baffle 3111 are all facing a water table below the side of the trough body 318. The vertical height of the water table relative to the bottom plate is higher than the trough body 318, the first baffle 3110 and the second baffle The depth of the notch of 3111 is flush with the surface of the water table to facilitate the flow of liquid into the tank body 318. The "vertical height" refers to the length perpendicular to the direction of the chassis structure.

第一挡片3110的对应于打水轮315的安装位置设有凹槽，凹槽底端为向下凹陷的弧面，凹槽用于容纳打水电机317的连接轴，连接轴连接打水轮315。The mounting position of the first flap 3110 corresponding to the water wheel 315 is provided with a groove, and the bottom end of the groove is a downwardly concave curved surface, the groove is for receiving the connecting shaft of the water pump 317, and the connecting shaft is connected to the water. Wheel 315.

在本实施例中，凹槽的形状与打水电机317的连接轴的周向形状相适应。In the present embodiment, the shape of the groove is adapted to the circumferential shape of the connecting shaft of the water motor 317.

打水结构设置于打水区330内，打水区330处于吸水区321和水位控制区313之间，打水区330与水槽区322相接合。The water-washing structure is disposed in the water-storing area 330, and the water-storing area 330 is between the water-absorbing area 321 and the water level control area 313, and the water-storing area 330 is engaged with the water tank area 322.

水槽区322上方装有冷凝器，冷凝器包括至少两个翅片，打水轮315安装在对应于两个翅片的之间，打水轮315将槽体318内积聚的冷凝水打到两个翅片上，可以加速冷凝水的蒸发，同时使得结构排列更加紧密，节约了空间。A condenser is arranged above the water tank area 322, the condenser includes at least two fins, and the water wheel 315 is installed between the two fins, and the water wheel 315 hits the condensed water accumulated in the tank body 318 to two. On the fins, the evaporation of the condensate can be accelerated, and the structure is arranged more closely, saving space.

本实施例中，打水轮315数量为一个。In this embodiment, the number of the water wheel 315 is one.

本实施例中，所述“高”和“低”是指相对于底板距离的大小，例如，“第一挡片3110和第二挡片3111的高于打水槽316”是指第一挡片3110和第二挡片3111距离底板更远，打水槽316距离底板更近。所述“顶”、“底”是指相对于底板的位置，例如“顶端”、“顶部”是指远离底板的一端和部分，“底端”、“底部”是指靠近底板的一端和部分。所述“上”、“下”是指相对于底板的方向，“上”指远离底板的方向，“下”是指朝向底板的方向。In the present embodiment, the "high" and "low" refer to the distance from the bottom plate. For example, "the first flap 3110 and the second flap 3111 are higher than the sink 316" means the first flap. The 3110 and the second flap 3111 are further from the bottom plate, and the sink 316 is closer to the bottom plate. The “top” and “bottom” refer to the position relative to the bottom plate, for example, “top” and “top” refer to one end and part away from the bottom plate, and “bottom end” and “bottom” refer to one end and part close to the bottom plate. . The "upper" and "lower" refer to the direction relative to the bottom plate, "upper" refers to the direction away from the bottom plate, and "lower" refers to the direction toward the bottom plate.

在本公开的另一个实施例中，提供了一种移动空调器。为简要起见，与上一实施例相同或相似的内容不再赘述，以下仅重点描述其不同于上一实施例的内容。In another embodiment of the present disclosure, a mobile air conditioner is provided. For the sake of brevity, the same or similar content as the previous embodiment will not be described again, and only the content different from the previous embodiment will be described below.

本实施例如图9、图10a所示，打水轮315包括第一打水轮3151，第二打水轮3152，第三打水轮3153。In the present embodiment, as shown in FIG. 9 and FIG. 10a, the water wheel 315 includes a first water wheel 3151, a second water wheel 3152, and a third water wheel 3153.

第一打水轮3151和第二打水轮3152、第三打水轮3153均设置于打水槽316上方。The first water wheel 3151 and the second water wheel 3152 and the third water wheel 3153 are both disposed above the water tank 316.

打水电机317经由一第一转轴3174与第一打水轮3151和第二打水轮3152连接，第一转轴3174带动第一打水轮3151和第二打水轮3152同轴同向转动。The water pump 317 is connected to the first water wheel 3151 and the second water wheel 3152 via a first rotating shaft 3174. The first rotating shaft 3174 drives the first water wheel 3151 and the second water wheel 3152 to rotate coaxially in the same direction.

第一转轴3174经由齿轮组与第二转轴3175连接；第二转轴3175带动第三打水轮3153转动。第二转轴3175经由齿轮组的传动，进而与第一转轴3174转动方向相反；继而，第一打水轮3151和第二打水轮3152转动方向相同，第三打水轮3153与第一打水轮3151或第二打水轮3152的 转动方向相反。The first rotating shaft 3174 is connected to the second rotating shaft 3175 via a gear set; the second rotating shaft 3175 drives the third watering wheel 3153 to rotate. The second rotating shaft 3175 is driven by the gear set, and is further opposite to the rotating direction of the first rotating shaft 3174; then, the first water wheel 3151 and the second water wheel 3152 rotate in the same direction, and the third water wheel 3153 and the first water pump The direction of rotation of the wheel 3151 or the second water wheel 3152 is opposite.

在本实施例中，第二转轴3175与第一转轴3174同轴设置。In the present embodiment, the second rotating shaft 3175 is disposed coaxially with the first rotating shaft 3174.

在本实施例中，齿轮组包括第一锥齿3171，第二锥齿3172，第三锥齿3173；第一锥齿3171与第一转轴3174连接并同向转动；第二锥齿3172与第二转轴3175连接并同向转动；第三锥齿3173同时与第一锥齿3171和第二锥齿3172啮合，从而使第一锥齿3171与第二锥齿3172的转动方向相反。In this embodiment, the gear set includes a first tapered tooth 3171, a second tapered tooth 3172, and a third tapered tooth 3173; the first tapered tooth 3171 is coupled to the first rotating shaft 3174 and rotates in the same direction; the second tapered tooth 3172 and the first The two rotating shafts 3175 are coupled and rotated in the same direction; the third tapered teeth 3173 are simultaneously meshed with the first tapered teeth 3171 and the second tapered teeth 3172 such that the first tapered teeth 3171 and the second tapered teeth 3172 rotate in opposite directions.

第三打水轮3153与第一打水轮3151或第二打水轮3152朝相反方向转动，能够将冷凝水朝相反方向挥洒，增大冷凝器与冷凝水的接触面积，提高挥发效率。The third water wheel 3153 rotates in the opposite direction with the first water wheel 3151 or the second water wheel 3152, and can condense the condensed water in the opposite direction, thereby increasing the contact area between the condenser and the condensed water, thereby improving the volatilization efficiency.

作为本实施例的另外一种实现方式，结合图10b所示，打水轮315包括第一打水轮3151，第二打水轮3152；且第二转轴3175与第一转轴3174非同轴设置；第一锥齿3171与第二锥齿3172相互啮合，从而使第一打水轮3151和第二打水轮3152朝相反方向转动；As another implementation manner of this embodiment, as shown in FIG. 10b, the water wheel 315 includes a first water wheel 3151 and a second water wheel 3152; and the second shaft 3175 is non-coaxial with the first shaft 3174. The first bevel tooth 3171 and the second bevel tooth 3172 are in mesh with each other, so that the first water wheel 3151 and the second water wheel 3152 are rotated in opposite directions;

在本实施例中，第一锥齿3171与第一转轴3174为一体式结构；第二锥齿3172与第二转轴3175为一体式结构。In this embodiment, the first tapered tooth 3171 and the first rotating shaft 3174 are of a unitary structure; the second tapered tooth 3172 and the second rotating shaft 3175 are of a unitary structure.

与上述不同的，第一锥齿3171与第一转轴3174为分体式结构；第二锥齿3172与第二转轴3175为分体式结构。Different from the above, the first bevel tooth 3171 and the first rotating shaft 3174 are of a split structure; the second bevel tooth 3172 and the second rotating shaft 3175 are of a split structure.

在本公开的又一个实施例中，提供了一种移动空调器。为简要起见，与上述实施例相同或相似的内容不再赘述，以下仅重点描述其不同于上述实施例的内容。In still another embodiment of the present disclosure, a mobile air conditioner is provided. For the sake of brevity, the same or similar content as the above embodiment will not be described again, and only the content different from the above embodiment will be described below.

当水槽区322流向打水区330的水过多时，打水区330的水会溢出，水位控制区313可以容纳打水区330溢出的水。本实施例如图11至18所示，移动空调器还包括至少一液位预警装置，用于对底盘水位控制区313的积水进行监控，液位预警装置包括：When the water flowing from the water tank area 322 to the water shooting area 330 is excessive, the water of the water shooting area 330 may overflow, and the water level control area 313 may accommodate the water overflowed by the water shooting area 330. The present embodiment, as shown in FIGS. 11 to 18, the mobile air conditioner further includes at least one liquid level warning device for monitoring the water accumulated in the chassis water level control area 313, and the liquid level early warning device includes:

存水槽，包括连通的第一存水槽3947和第二存水槽3948，用于收集空调运转过程中产生的积水。The water storage tank includes a connected first water storage tank 3947 and a second water storage tank 3948 for collecting the accumulated water generated during the operation of the air conditioner.

液位开关，包括：第一级液位开关3921，悬挂固定于第一存水槽3947的上方，用于对第一存水槽3947的水位进行监控；第二级液位开关3922，悬挂固定于第二存水槽3948的上方，用于对第二存水槽3948的水位进行 监控。The liquid level switch comprises: a first stage liquid level switch 3921, suspended and fixed above the first water storage tank 3947 for monitoring the water level of the first water storage tank 3947; the second level liquid level switch 3922, suspended and fixed at the first Above the second storage tank 3948, the water level of the second water storage tank 3948 is monitored.

第一级液位开关3921和第二级液位开关3922触发报警时水位的高度不同，从而保证在第一级液位开关3921触发报警后，保证有足够的时间来使空调做出响应，及时发出调整命令。通过第一级液位开关3921和第二级液位开关3922触发报警的时机不同，来实现对移动空调运转的控制。当第一存水槽3947存水的水位上升，第一级液位开关3921的浮子上浮到达一级报警位置时，触发一级报警信号，送风风机转速变慢，冷凝器温度升高，除水效率增强；当第二存水槽3948存水的水位继续上升，浮子上浮到二级报警位置，再次触发报警信号，移动空调停机。When the first level liquid level switch 3921 and the second level liquid level switch 3922 trigger the alarm, the height of the water level is different, so as to ensure that after the first level liquid level switch 3921 triggers the alarm, it is ensured that there is enough time for the air conditioner to respond. Issue an adjustment command. The timing of triggering the alarm by the first-stage liquid level switch 3921 and the second-stage liquid level switch 3922 is different to realize the control of the operation of the mobile air conditioner. When the water level of the first water storage tank 3947 is increased, when the float of the first level liquid level switch 3921 reaches the first-level alarm position, the first-level alarm signal is triggered, the speed of the air supply fan becomes slow, the temperature of the condenser rises, and the water is removed. The efficiency is enhanced; when the water level of the second water storage tank 3948 continues to rise, the float floats up to the secondary alarm position, and the alarm signal is triggered again, and the mobile air conditioner is stopped.

在本实施例中，第一级液位开关3921通过连接杆一与液位开关固定支架一3943相连接，使第一级液位开关3921悬挂固定于第一存水槽3947的上方，第二级液位开关3922通过连接杆二与液位开关固定支架二3944相连接，使第二级液位开关3922悬挂固定于第二存水槽3948的上方，从而有效地避免了液位开关与底盘的直接连接，方便安装与拆卸维修，避免不必要的麻烦。In this embodiment, the first stage liquid level switch 3921 is connected to the liquid level switch fixing bracket 1394 through the connecting rod 1 , so that the first level liquid level switch 3921 is suspended and fixed above the first water storage tank 3947 , the second stage The liquid level switch 3922 is connected to the liquid level switch fixing bracket 2944 through the connecting rod 2, so that the second level liquid level switch 3922 is suspended and fixed above the second water storage tank 3948, thereby effectively avoiding the direct connection between the liquid level switch and the chassis. Connection, easy to install and disassemble maintenance, to avoid unnecessary trouble.

在本实施例中，一级报警位置与二级报警位置的高度不同。这样设置的好处在于，保证一级报警和二级报警之间有一定的时间间隔，使空调第一级液位开关3921触发报警后，有足够的时间来做出响应并及时发出调整命令，也避免了一级报警与二级报警同时的出现。In this embodiment, the level of the primary alarm position is different from the height of the secondary alarm position. The advantage of this setting is that there is a certain time interval between the first level alarm and the second level alarm, so that after the air conditioner first level liquid level switch 3921 triggers the alarm, there is enough time to respond and issue an adjustment command in time. The occurrence of the first-level alarm and the second-level alarm are avoided at the same time.

在本实施例中，第一级液位开关3921的浮子的下表面要低于第一存水槽3947的上边缘。保证第一级液位开关3921在水积满第一存水槽3947之前，可以有效地做出响应；在本实施例中，第二级液位开关3922的浮子的下表面要低于第二存水槽3948上边缘。保证第二级液位开关3922在水积满第二存水槽3948之前，可以有效地做出响应。In the present embodiment, the lower surface of the float of the first stage liquid level switch 3921 is lower than the upper edge of the first water storage tank 3947. It is ensured that the first level liquid level switch 3921 can effectively respond before the water accumulates in the first water storage tank 3947; in this embodiment, the lower surface of the float of the second level liquid level switch 3922 is lower than the second storage The upper edge of the sink 3948. It is ensured that the second level liquid level switch 3922 can effectively respond before the water accumulates in the second water storage tank 3948.

在本实施例中，第一存水槽3947的深度与第二存水槽3948的深度不同。这样设置的好处在于，一方面，可以更好的节省空间；另一方面，考虑到底盘的结构设置，使第一存水槽3947在一级报警之前可以储存尽量多的积水。所述“深度”是指在垂直于底板方向上的长度。In the present embodiment, the depth of the first water storage tank 3947 is different from the depth of the second water storage tank 3948. The advantage of this arrangement is that, on the one hand, space can be saved better; on the other hand, considering the structural arrangement of the chassis, the first water storage tank 3947 can store as much water as possible before the first level alarm. The "depth" refers to the length in the direction perpendicular to the bottom plate.

在本实施例中，第一级液位开关3921和第二级液位开关3922相对于水位控制区313的高度不同。保证第一级液位开关3921触发报警与第二 级液位开关3922触发报警之间有一定的时间间隔，让空调不至于同时执行两个报警信号而失去保护意义。In the present embodiment, the heights of the first stage liquid level switch 3921 and the second stage liquid level switch 3922 are different with respect to the water level control area 313. There is a certain time interval between the first level liquid level switch 3921 triggering alarm and the second level liquid level switch 3922 triggering the alarm, so that the air conditioner does not perform two alarm signals at the same time and loses protection significance.

在本实施例中，第一存水槽3947和第二存水槽3948的槽底设置有排水口，这样设置的好处在于，紧要时刻可以及时地将积水排出，避免潜在的安全隐患，另一方面，方便积水的排出和售后维护。In this embodiment, the bottom of the first water storage tank 3947 and the second water storage tank 3948 are provided with a water outlet. The advantage of the arrangement is that the accumulated water can be discharged in time to avoid potential safety hazards. To facilitate the discharge of water and after-sales maintenance.

在本实施例中，液位开关的形式可以为浮球式液位开关或者干簧管液位开关。In this embodiment, the liquid level switch may be in the form of a float type liquid level switch or a reed switch liquid level switch.

第一级液位开关3921和第二级液位开关3922例如是如下结构：The first stage liquid level switch 3921 and the second stage liquid level switch 3922 are, for example, the following structures:

液位开关包括一紧固装置，用于实现液位开关3913与空调底盘之间的紧固，紧固装置包括：The liquid level switch includes a fastening device for fastening between the liquid level switch 3913 and the air conditioning chassis, and the fastening device comprises:

液位开关固定支架3912，呈现为“L”形，液位开关固定支架3912的端面39124开设有至少一个通孔，液位开关3913与端面39124相连接，液位开关固定支架3912的侧边39123的下边缘设置有连接脚39121，连接脚39121为底部开设套接槽的薄壁凸台结构。The liquid level switch fixing bracket 3912 is in an "L" shape, and the end surface 39124 of the liquid level switch fixing bracket 3912 is provided with at least one through hole, the liquid level switch 3913 is connected to the end surface 39124, and the liquid level switch fixing bracket 3912 is provided on the side 39123. The lower edge is provided with a connecting leg 39121, and the connecting leg 39121 is a thin-walled boss structure with a socket groove at the bottom.

螺钉柱3911，设置于空调的底盘结构上，螺钉柱3911为台阶结构，包括小柱39112与大柱39111。The screw post 3911 is disposed on the chassis structure of the air conditioner, and the screw post 3911 is a stepped structure including a small post 39112 and a large post 39111.

连接脚39121的套接槽套接在小柱39112外部，形成可拆卸的套接连接，实现对液位开关固定支架3912的限位。将液位开关3913与空调的底盘结构连接在一起，避免了将液位开关3913与空调其他非底盘结构连接时可能出现的错位现象的发生，另外，通过液位开关固定支架3912与底盘结构的直接连接，拆卸时只需对液位开关固定支架3912进行拆卸，方便安装与拆卸维护，同时也避免了频繁拆卸液位开关3913对液位开关3913带来的破坏。The socket groove of the connecting leg 39121 is sleeved outside the small column 39112 to form a detachable socket connection, thereby realizing the limitation of the liquid level switch fixing bracket 3912. The liquid level switch 3913 is connected with the chassis structure of the air conditioner, thereby avoiding the occurrence of misalignment which may occur when the liquid level switch 3913 is connected with other non-chassis structures of the air conditioner, and further, fixing the bracket 3912 and the chassis structure by the liquid level switch Direct connection, only need to disassemble the liquid level switch fixing bracket 3912 for easy installation, disassembly and maintenance, and also avoid the damage caused by the frequent disassembly liquid level switch 3913 to the liquid level switch 3913.

在本实施例中，连接脚39121的套接槽的内截面与小柱39112的截面形状相同，并且小柱39112***套接槽可自由的沿轴向方向滑动。保证套接槽套接于小柱39112后的稳定性的同时，便于安装与拆卸的方便。In the present embodiment, the inner cross section of the socket groove of the connecting leg 39121 is the same as the cross-sectional shape of the small post 39112, and the insertion of the small post 39112 into the socket groove is free to slide in the axial direction. The stability of the sleeve groove after the sleeve 39112 is ensured is convenient for installation and disassembly.

在本实施例中，螺钉柱3911上表面的中心开设有螺纹孔39113；连接脚39121上表面设置有通孔39122，通孔39122贯穿连接脚39121套接槽；将连接脚39121的套接槽套接在小柱39112外部，连接脚39121上表面设置的通孔39122与螺钉柱3911上表面开设的螺纹孔39113位置正对，实 现对孔位同轴心，避免安装时发生错位；通过一螺钉穿过通孔39122并与螺纹孔39113进行固定，进而将液位开关固定支架3912与螺钉柱3911进行固定，进一步对液位开关3913在上下方向的移动进行限制，同时也方便后期维护。In the embodiment, the center of the upper surface of the screw post 3911 is provided with a threaded hole 39113; the upper surface of the connecting leg 39121 is provided with a through hole 39122, the through hole 39122 is inserted through the connecting leg 39121; the sleeve of the connecting leg 39121 is sleeved Connected to the outside of the small column 39112, the through hole 39122 provided on the upper surface of the connecting leg 39121 is opposite to the screw hole 39113 opened on the upper surface of the screw post 3911, so as to achieve concentricity of the hole position, avoiding misalignment during installation; The through hole 39122 is fixed to the screw hole 39113, and the liquid level switch fixing bracket 3912 and the screw post 3911 are fixed, thereby further restricting the movement of the liquid level switch 3913 in the up and down direction, and also facilitating the later maintenance.

在本实施例中，小柱39112的截面积比大柱39111的截面积要小。小柱39112***套接槽后，套接槽外壁和小柱39112的外壁齐平，保证了外观的美感。In the present embodiment, the cross-sectional area of the small column 39112 is smaller than the cross-sectional area of the large column 39111. After the small column 39112 is inserted into the socket groove, the outer wall of the socket groove and the outer wall of the small column 39112 are flush, which ensures the aesthetic appearance.

在本实施例中，大柱39111的上表面能够对连接脚39121的底面进行抵接，方便安装到位，同时保证液位开关3913的位置精度。In the present embodiment, the upper surface of the large post 39111 can abut the bottom surface of the connecting leg 39121 to facilitate the installation in position while ensuring the positional accuracy of the liquid level switch 3913.

在本实施例中，液位开关3913通过连接杆39131与液位开关固定支架3912的向外延伸结构(即端面39124)相连接，通过液位开关固定支架3912的紧固来实现对液位开关3913的固定，从而有效地避免了液位开关3913与空调底盘的直接连接，方便安装与拆卸维修，避免不必要的麻烦。In this embodiment, the liquid level switch 3913 is connected to the outwardly extending structure of the liquid level switch fixing bracket 3912 (ie, the end surface 39124) through the connecting rod 39131, and the liquid level switch is realized by the fastening of the liquid level switch fixing bracket 3912. The fixing of 3913 effectively avoids the direct connection of the liquid level switch 3913 and the air conditioning chassis, facilitating installation and disassembly maintenance, and avoiding unnecessary troubles.

在本实施例中，螺钉柱3911结构形式包括如下两种：其一，螺钉柱3911为单独设计的结构，与空调底盘结构分开，通过螺钉紧固方式或卡扣方式或与空调的底盘结构上设置的安装柱套接的方式实现螺钉柱3911与空调底盘的连接。这样设置的好处在于，可以在底盘结构上打多个孔，在合适的位置安装螺钉柱即可，避免了在底盘结构上设计多个螺钉柱造成的成本的浪费，同时也可以增加整体的美观性。其二，螺钉柱3911与空调底盘为一体成型，避免了螺钉柱3911的单独加工造成的不必要的工序，从而产生较大的浪费。In this embodiment, the structure of the screw post 3911 includes the following two types: First, the screw post 3911 is a separately designed structure, which is separated from the air conditioner chassis structure by screw fastening or snapping or with the chassis structure of the air conditioner. The mounting post is sleeved to achieve the connection of the screw post 3911 to the air conditioning chassis. The advantage of this arrangement is that a plurality of holes can be made in the chassis structure, and the screw column can be installed at a suitable position, thereby avoiding the waste of cost caused by designing multiple screw columns on the chassis structure, and also increasing the overall appearance. Sex. Secondly, the screw post 3911 is integrally formed with the air conditioner chassis, which avoids unnecessary processes caused by the separate processing of the screw post 3911, thereby causing a large waste.

进一步的，液位开关固定支架3912设置有一旋钮，通过旋钮对液位开关3913的高度进行调节，进而提高使用精度，方便进行售前调试及售后维修。Further, the liquid level switch fixing bracket 3912 is provided with a knob, and the height of the liquid level switch 3913 is adjusted by the knob, thereby improving the use precision, facilitating pre-sales debugging and after-sales maintenance.

在本实施例中，存水槽周围设置有螺钉柱，通过螺钉柱与液位开关固定支架的连接来实现对液位开关固定支架的连接，间接实现对液位开关的固定。其中，通过螺钉柱一3945与液位开关固定支架一3943的连接来实现对液位开关固定支架一3943的固定，通过螺钉柱二3946与液位开关固定支架二3944的连接来实现对液位开关固定支架二3944的固定。In this embodiment, a screw column is arranged around the water storage tank, and the connection of the liquid level switch fixing bracket is realized by the connection of the screw column and the liquid level switch fixing bracket, and the fixing of the liquid level switch is indirectly realized. Wherein, the fixing of the liquid level switch fixing bracket 1394 is realized by the connection of the screw column 3945 and the liquid level switch fixing bracket 1394, and the liquid level is realized by the connection of the screw column 2946 and the liquid level switch fixing bracket 2944. The fixing of the switch fixing bracket 2944.

在本实施例中，一级报警位置低于存水槽的上边缘，可以使移动空调 及时的接收信号，使送风风机转速变慢，冷凝器温度升高，防止空调继续正常运转导致积水溢出的可能性。保证第一级液位开关3921在存水槽积满水之前，可以有效地做出响应。In this embodiment, the first-level alarm position is lower than the upper edge of the water storage tank, so that the mobile air conditioner can receive the signal in time, the speed of the air supply fan is slowed down, the temperature of the condenser is increased, and the air conditioner continues to operate normally, resulting in overflow of water. The possibility. It is ensured that the first level liquid level switch 3921 can effectively respond before the water storage tank is filled with water.

第一级液位开关3921通过液位开关固定支架与空调底盘结构连接，通过液位开关固定支架的固定与拆卸来实现一级液位开关液位开关3921的固定与拆卸，防止第一级液位开关3921的拆卸频繁导致的损坏；第二级液位开关3922通过液位开关固定支架与空调底盘结构连接，通过液位开关固定支架的固定与拆卸来实现二级液位开关液位开关3922的固定与拆卸，防止第二级液位开关3922的拆卸频繁导致的损坏。The first level liquid level switch 3921 is connected with the air conditioner chassis structure through the liquid level switch fixing bracket, and the fixing and dismounting of the liquid level switch liquid level switch 3921 is realized by the fixing and dismounting of the liquid level switch fixing bracket to prevent the first stage liquid. The displacement of the position switch 3921 is frequently caused by the disassembly; the second stage liquid level switch 3922 is connected with the air conditioner chassis structure through the liquid level switch fixing bracket, and the liquid level switch fixing bracket is fixed and disassembled to realize the two-level liquid level switch liquid level switch 3922 The fixing and dismounting prevent the damage caused by the frequent removal of the second-stage liquid level switch 3922.

在本实施例中，第一级液位开关3921和第二级液位开关3922的形式可以是浮球式液位开关或者干簧管液位开关。In this embodiment, the first stage liquid level switch 3921 and the second stage liquid level switch 3922 may be in the form of a float type liquid level switch or a reed switch liquid level switch.

在本实施例中，存水槽在槽底设置有排水口，以便紧急时刻可以及时地将水排出。储备存水区在槽底设置有排水口，可以有效地对积水进行排出。In the present embodiment, the water storage tank is provided with a drain port at the bottom of the tank so that the water can be discharged in time in an emergency. The reserve water storage area is provided with a water outlet at the bottom of the tank, which can effectively discharge the accumulated water.

液位开关还可以为多级液位开关，多级液位开关3930悬挂固定于存水槽的上方，用于对存水槽的水位进行监控，如图16至图18，多级液位开关3930包括：The liquid level switch can also be a multi-stage liquid level switch, and the multi-level liquid level switch 3930 is suspended and fixed above the water storage tank for monitoring the water level of the water storage tank. As shown in FIG. 16 to FIG. 18, the multi-level liquid level switch 3930 includes :

导向杆3936，呈现为圆台，圆台截面积沿着水位上升方向(即远离底板结构方向)逐渐减小，用于对浮球3931和浮子的位置的限定，并对浮球3931和浮子的运动产生导向作用。The guiding rod 3936 is presented as a truncated cone, and the cross-sectional area of the truncated cone is gradually decreased along the rising direction of the water level (ie, away from the structure of the bottom plate) for defining the position of the floating ball 3931 and the float, and generating the movement of the floating ball 3931 and the float. Guiding role.

浮球3931，呈现为环状结构，环绕于导向杆3936，设置于导向杆3936的截面积最大一侧，当水位上升时，浮球3931沿着导向杆3936向上浮动，当水位下降时，浮球3931沿着导向杆3936下降，直至落回初始位置。The floating ball 3931 is in the form of a ring structure, which surrounds the guiding rod 3936 and is disposed on the largest side of the cross-sectional area of the guiding rod 3936. When the water level rises, the floating ball 3931 floats upward along the guiding rod 3936, and floats when the water level drops. The ball 3931 descends along the guide bar 3936 until it falls back to the initial position.

浮子，数量为1个或多个，均呈现为环状结构，环绕于导向杆3936，沿水位上升方向依次命名为一级浮子3932、二级浮子3933、三级浮子3934，浮子向上按自然数排列顺序依次设置于浮球3931上方，当水位上浮时，浮子沿着导向杆3936上浮，当水位下降时，浮子沿着导向杆3936下降，直至落回初始位置。The floats, in one or more, are in a ring structure, which surrounds the guide rod 3936 and are named as the first stage float 3932, the second stage float 3933, and the third stage float 3934 along the rising direction of the water level. The floats are arranged upward by natural numbers. The sequence is sequentially disposed above the float ball 3931. When the water level floats, the float floats along the guide bar 3936. When the water level drops, the float descends along the guide bar 3936 until it falls back to the initial position.

当存水槽的水位不断上升，浮球3931触动一级浮子3932时，多级液位开关3930触发报警，送风风机转速变慢，冷凝器温度升高，除水效率 增强；当水位继续上升时，浮球3931带动一级浮子3932继续上浮，当触动二级浮子3933时，送风风机转速进一步变慢，冷凝器温度升高，除水效率进一步增强；当水位继续上升时，浮球3931带动一级浮子3932和二级浮子3933继续上浮，当触动三级浮子3934时，液位开关报警，移动空调停机。这样设置的好处在于，采取多重保护的模式，增强了对存水槽的水位的监测，同时，对空调进行多重调控，加强了对移动空调的保护。When the water level of the water storage tank keeps rising and the floating ball 3931 touches the first stage float 3932, the multi-level liquid level switch 3930 triggers an alarm, the speed of the air supply fan becomes slow, the temperature of the condenser rises, and the water removal efficiency increases; when the water level continues to rise The floating ball 3931 drives the first stage float 3932 to continue to float. When the secondary float 3933 is touched, the blowing fan speed is further slowed down, the condenser temperature is increased, and the water removal efficiency is further enhanced; when the water level continues to rise, the floating ball 3931 drives The first stage float 3932 and the second stage float 3933 continue to float. When the third stage float 3934 is touched, the liquid level switch alarms and the mobile air conditioner stops. The advantage of this setting is that the multi-protection mode is adopted to enhance the monitoring of the water level of the storage tank, and at the same time, the air conditioner is multi-adjusted to enhance the protection of the mobile air conditioner.

在本实施例中，浮子的内环包括沿着水位上升方向的二环39313和一环39311，二环39313的面积大于一环39311的面积。这样设置的好处在于，由于导向杆3936沿着水位上升的方向截面积逐渐减小，浮子脱离所在位置开始上浮后，浮子不再受导向杆3936的约束，减小浮子上浮时所承担的外在阻力。In this embodiment, the inner ring of the float includes a second ring 39313 and a ring 39311 along the rising direction of the water level, and the area of the second ring 39313 is larger than the area of a ring 39311. The advantage of this arrangement is that since the cross-sectional area of the guide rod 3936 along the rising direction of the water level is gradually reduced, after the float is released from the position, the float is no longer constrained by the guide rod 3936, and the external force assumed by the float when floating up is reduced. resistance.

在本实施例中，导向杆3936上设置有导轨3937，从而可以更好地对浮球3931和浮子的运动产生导向作用，防止所有浮子在运动过程中发生旋转或者翻转。In the present embodiment, the guide bar 3936 is provided with a guide rail 3937, so that the movement of the float ball 3931 and the float can be better guided to prevent rotation or inversion of all the floats during the movement.

在本实施例中，浮子的内环周围设置有导槽39312，其宽度与导轨3937的宽度一致，并留有浮子沿着导轨3937运动的间隙。这样设置的好处在于，与导轨3937达成配合关系，充分利用导轨3937的导向作用。In the present embodiment, a guide groove 39312 is provided around the inner ring of the float, the width of which coincides with the width of the guide rail 3937, and a gap in which the float moves along the guide rail 3937 is left. The advantage of this arrangement is that a matching relationship with the guide rail 3937 is achieved, and the guiding action of the guide rail 3937 is fully utilized.

在本实施例中，沿水位上升方向、在不同位置浮子的内环截面积不同，与各自所处导向杆3936位置的截面面积相同。这样设置的好处在于，每个浮子处在固定的位置，可以精确地感应液位所在的位置，防止所有的浮子连在一起，产生不必要的触动，对多级液位开关3930的报警产生误导。In the present embodiment, the inner ring cross-sectional area of the float is different in the rising direction of the water level and at different positions, and the cross-sectional area of the position of the guide bar 3936 is the same. The advantage of this setting is that each float is in a fixed position, which can accurately sense the position of the liquid level, prevent all the floats from being connected together, and generate unnecessary touches, misleading the alarm of the multi-level liquid level switch 3930. .

在本实施例中，浮球3931和浮子以及相邻的浮子之间留有间隙，避免相邻的浮子的接触对报警信号的干扰。这样设置的好处在于，根据实际水位上升的快慢，通过浮子的大小，使相邻浮子之间的距离为某一定值，间接为下一次报警留有一定的响应时间。In this embodiment, a gap is left between the float ball 3931 and the float and the adjacent float to avoid interference of the adjacent float contact with the alarm signal. The advantage of this setting is that, according to the speed of the actual water level rise, the distance between adjacent floats is a certain value by the size of the float, and indirectly, a certain response time is left for the next alarm.

在本实施例中，导向杆3936设置有卡环3935，卡环3935设置于所有浮子上方，对浮子进行限位，防止浮子滑出。In this embodiment, the guide rod 3936 is provided with a snap ring 3935, and the snap ring 3935 is disposed above all the floats to limit the float to prevent the float from slipping out.

在本实施例中，导向杆3936的截面积较小一侧设置有连接杆3938，通过连接杆3938与多级液位开关固定支架3939连接，来实现多级液位开关与底盘的连接。避开多级液位开关直接与底盘或者空调侧板之间的连接， 这样可以避免频繁拆装对多级液位开关造成的破坏，直接拆卸液位开关固定支架，即可实现多级液位开关的拆装。In this embodiment, the connecting rod 3936 has a connecting rod 3938 disposed on the smaller side of the cross-sectional area thereof, and is connected to the multi-stage liquid level switch fixing bracket 3939 through the connecting rod 3938 to realize the connection between the multi-level liquid level switch and the chassis. Avoid the connection between the multi-level liquid level switch and the chassis or the air conditioner side plate. This can avoid the damage caused by frequent disassembly and assembly of the multi-level liquid level switch. Directly disassemble the liquid level switch fixing bracket to achieve multi-level liquid level. Disassembly and assembly of the switch.

在本实施例中，不同浮子的内环沿水位上升方向、在不同位置的截面积均不相同，但与各自所处导向杆3936位置的截面面积相同，保证浮子环绕于导向杆3936的不同位置。In this embodiment, the inner rings of different floats are different in the rising direction of the water level and the cross-sectional areas at different positions, but the same as the cross-sectional area of the respective guide rods 3936, ensuring that the floats surround different positions of the guide rods 3936. .

在本实施例中，导轨3937至少为1条，多条导轨3937可以更好地保证浮子上浮时的稳定性。所有导轨3937阵列分布于导向杆3936周围，对称的结构可以保证浮子上浮时关于导向杆3936的对称性，进一步增加浮子上升过程中的稳定性。In the present embodiment, the guide rails 3937 are at least one, and the plurality of guide rails 3937 can better ensure the stability of the float when floating. All the arrays of guide rails 3937 are distributed around the guide rods 3936. The symmetrical structure can ensure the symmetry about the guide rods 3936 when the floats are floating, and further increase the stability during the rise of the floats.

浮子可以有多级，分别为一、二、三……N级浮子，N为所有浮子的总数，N级浮子向上按自然数排列顺序依次设置于浮球3931上方，所有浮子均沿着导向杆3936上浮和下降，当液位不断上升时，浮球3931沿导向杆3936向上运动，依次触动N级浮子并带动所有触动过的浮子一起向上运动，并触发相应的N级报警信号，当触发N-1级信号时，送风风机转速变慢，冷凝器温度升高，除水效率增强，当触发第N级信号时，多级液位开关3930报警，移动空调停机。这样设置的好处在于，根据不同空调存水槽的深度，来调整浮子的个数，更加精确地实现对存水槽水位的监控，增强对空调的保护。The float can have multiple stages, one, two, three...N-level floats, N is the total number of all floats, and the N-level floats are arranged above the floating ball 3931 in the order of natural numbers, all floats are along the guide rod 3936 Up and down, when the liquid level keeps rising, the float ball 3931 moves upward along the guide rod 3936, sequentially touches the N-stage float and drives all the touched floats to move upward together, and triggers the corresponding N-level alarm signal, when triggering N- When the level 1 signal is used, the speed of the air supply fan becomes slower, the temperature of the condenser rises, and the water removal efficiency increases. When the Nth level signal is triggered, the multi-level liquid level switch 3930 alarms and the mobile air conditioner stops. The advantage of this setting is that the number of floats is adjusted according to the depth of different air conditioning water storage tanks, and the monitoring of the water level of the water storage tank is realized more accurately, and the protection of the air conditioner is enhanced.

在本公开的再一个实施例中，提供了一种移动空调器。为简要起见，与上述实施例相同或相似的内容不再赘述，以下仅重点描述其不同于上述实施例的内容。In still another embodiment of the present disclosure, a mobile air conditioner is provided. For the sake of brevity, the same or similar content as the above embodiment will not be described again, and only the content different from the above embodiment will be described below.

本实施例的移动空调器还包括一排水结构，结合图19至图27所示，排水结构包括过滤组件361、水泵362、排水嘴结构363以及第一连通管道364和第二连通管道365。The mobile air conditioner of the present embodiment further includes a drainage structure. As shown in FIGS. 19 to 27, the drainage structure includes a filter assembly 361, a water pump 362, a drain nozzle structure 363, and a first communication conduit 364 and a second communication conduit 365.

过滤组件361安装在底盘结构上设置的凹槽323内，凹槽323由底盘结构的平面向下凹陷而成，过滤组件361设置于凹槽323内，有助于吸干底盘积聚的液体；过滤组件361通过第一连通管道364与水泵362的进水口相连接，水泵362的出水口通过第二连通管道365与位于底盘边缘的排水嘴结构363相连接。The filter assembly 361 is mounted in a recess 323 provided in the chassis structure, the recess 323 is recessed downward from the plane of the chassis structure, and the filter assembly 361 is disposed in the recess 323 to help suck the liquid accumulated in the chassis; The assembly 361 is coupled to the water inlet of the water pump 362 via a first communication conduit 364, and the water outlet of the water pump 362 is coupled to the drain nozzle structure 363 at the edge of the chassis via a second communication conduit 365.

在重力的作用下，底盘结构内积聚的冷凝水流入低位的凹槽323中， 在水泵362吸力作用下，冷凝水通过过滤组件361的滤网滤除液体中的杂质，流入水泵362中，继而流经第二连通管道365，并由排水嘴结构363排出经过过滤组件361过滤后的液体。Under the action of gravity, the condensed water accumulated in the chassis structure flows into the lower groove 323. Under the suction of the water pump 362, the condensed water filters the impurities in the liquid through the filter screen of the filter assembly 361, flows into the water pump 362, and then flows into the water pump 362, and then flows. It flows through the second communication conduit 365, and the liquid filtered through the filter assembly 361 is discharged by the drain nozzle structure 363.

水泵362传送的是过滤后的冷凝液，防止混杂在液体内的杂质进入水泵362中损害水泵362的正常使用，有利于提高空调机的工作性能，降低故障率，同时能够将低于排水嘴结构363的冷凝水排出到空调机外，增长空调内部金属部件使用寿命。The water pump 362 transmits the filtered condensate to prevent the impurities mixed in the liquid from entering the water pump 362 to damage the normal use of the water pump 362, which is beneficial to improving the working performance of the air conditioner, reducing the failure rate, and being able to lower the structure of the drain nozzle. The condensed water of 363 is discharged to the outside of the air conditioner to increase the service life of the metal parts inside the air conditioner.

过滤组件361包括一过滤器366，一固定组件367和一连接环套368，过滤组件361的固定组件367包括用于封闭过滤器366的面盖3671，以及用于支撑过滤组件的固定臂3672。The filter assembly 361 includes a filter 366, a securing assembly 367 and a connecting collar 368. The securing assembly 367 of the filter assembly 361 includes a face cover 3671 for closing the filter 366, and a fixed arm 3672 for supporting the filter assembly.

在本实施例中，面盖3671与固定臂3672为一体式结构。In the present embodiment, the face cover 3671 and the fixed arm 3672 are of a unitary structure.

固定组件367中间有一中空管道3673，用于液体的流通；中空管道3673延伸到外部，构成一导通口，导通口还用于与第一连通管道364的衔接，使得过滤组件361与水泵362连通。There is a hollow pipe 3673 in the middle of the fixing component 367 for the circulation of the liquid; the hollow pipe 3673 extends to the outside to form a conduction port, and the conduction port is also used for the connection with the first communication pipe 364, so that the filter assembly 361 and the water pump 362 Connected.

过滤器366与固定组件367通过连接环套368相接合，采用可分离式的连接方法；过滤器366与固定组件367的连接方式可以为卡扣连接、螺纹连接，便于后期维护时拆下过滤器366，对聚集的杂质进行清理。The filter 366 and the fixing component 367 are joined by the connecting sleeve 368, and the detachable connecting method is adopted; the connecting manner of the filter 366 and the fixing component 367 can be a snap connection or a screw connection, and the filter can be removed for later maintenance. 366, cleaning up the accumulated impurities.

在本实施例中，固定臂3672包括以中空管道3673为中心，对称向两侧水平延伸的第一固定臂和第二固定臂。In the present embodiment, the fixed arm 3672 includes a first fixed arm and a second fixed arm that extend horizontally symmetrically to both sides centering on the hollow duct 3673.

在本实施例中，连接环套368内还设置有密封结构，密封结构能够起到密封的性能，使过滤器366和固定组件367连接的更加紧密，防止已经过滤的冷凝液外漏，以及未过滤的液体进入管道中。In this embodiment, the connecting ring sleeve 368 is further provided with a sealing structure, and the sealing structure can provide sealing performance, so that the filter 366 and the fixing assembly 367 are more closely connected to prevent leakage of the filtered condensate, and The filtered liquid enters the pipeline.

固定臂3672通过底盘设置的固定结构固定，固定结构位于固定臂3672长度方向上的两侧；一侧的固定结构为位于底盘上的第一固定件3693，另一侧为第二固定件。The fixing arm 3672 is fixed by a fixing structure provided by the chassis, and the fixing structure is located on both sides of the fixing arm 3672 in the longitudinal direction; the fixing structure on one side is the first fixing member 3693 on the chassis, and the other side is the second fixing member.

第一固定件3693为一立体台，形状可以是长方体、梯形台或者圆台，第一固定件3693面向过滤器366一侧的壁面上设有一镂空口，镂空口用于容纳固定臂3672的第一固定臂。The first fixing member 3693 is a three-dimensional table, and the shape may be a rectangular parallelepiped, a trapezoidal table or a truncated cone. The first fixing member 3693 is provided with a hollow opening on the wall surface facing the filter 366, and the hollow opening is for receiving the first of the fixing arm 3672. Fixed arm.

在本实施例中，镂空口内部还设置有至少一个抵件，其用于抵接第一固定臂，防止第一固定臂在镂空口内沿长度方向窜动。In this embodiment, the inside of the hollow port is further provided with at least one abutting member for abutting the first fixing arm to prevent the first fixing arm from tilting in the longitudinal direction in the hollow port.

在本实施例中，第一固定件3693自顶部向下延伸出一槽体，槽体与镂空口贯通，设置槽体能够在安装过程中，清楚的观察第一固定臂是否安装到位。In this embodiment, the first fixing member 3693 extends downward from the top to form a slot body, and the slot body penetrates through the hollow port. The slot body can clearly observe whether the first fixing arm is installed in position during the installation process.

在本实施例中，镂空口的形状与第一固定臂的形状相适应，进而减少第一固定臂在镂空口内的窜动。In this embodiment, the shape of the hollow port is adapted to the shape of the first fixed arm, thereby reducing the turbulence of the first fixed arm in the hollow port.

第二固定件由两部分组成，一部分为支撑体3692，支撑体3692设有与固定臂3372形状相适应的贯通口，贯通口可以是顶部开口的凹槽，也可以是支撑体3692壁面上的镂空通道，支撑体3692的外侧设有一卡柱3691，卡柱3691为弹性件，卡柱3691的顶端设有一卡件。The second fixing member is composed of two parts, one part is a supporting body 3692, and the supporting body 3692 is provided with a through hole corresponding to the shape of the fixing arm 3372, and the through hole may be a groove with a top opening or a wall surface of the supporting body 3692. In the hollow passage, a support post 3691 is disposed on the outer side of the support body 3692. The post 3691 is an elastic member, and a top end of the post 3691 is provided with a card member.

固定臂3672的第一固定臂和第二固定臂分别穿过立体台3696的镂空口和支撑体3692的贯通口，通过立体台3696的槽体底面和支撑体3692的贯通口底面两者竖直方向上的支撑，以及卡柱3691的卡件和槽体的镂空口顶面限定，将固定臂3672固定在一定的高度。The first fixed arm and the second fixed arm of the fixed arm 3672 respectively pass through the hollow port of the stereoscopic table 3696 and the through hole of the support body 3692, and the bottom surface of the groove body of the stereoscopic table 3696 and the bottom surface of the through hole of the support body 3692 are vertical. The support in the direction, and the card member of the post 3691 and the top surface of the hollow of the slot are defined to fix the fixed arm 3672 at a certain height.

立体台3693的抵件和卡柱3691的壁面分别顶住固定臂3672的两端，通过立体台3696的抵件和卡柱3691壁面的水平方向上的限定，将固定臂3672固定在一定的水平位置。The abutting portion of the three-dimensional table 3693 and the wall surface of the post 3691 respectively abut against the two ends of the fixing arm 3672, and the fixing arm 3672 is fixed at a certain level by the fixing of the three-dimensional table 3696 and the horizontal direction of the wall of the post 3691. position.

在本实施例中，卡件上设置有一倾斜面，在安装过滤组件361时，首先将固定臂3672的第一固定臂***立体台3696的镂空口内，进而向下按压固定臂3672的第二固定臂，卡柱3691在弹力作用下向远离过滤组件361的方向弯曲，第二固定臂将沿着卡件的倾斜面滑入支撑体3692的贯通口内，安装到位后，卡柱3691回弹，实现对过滤组件361的卡接；拆卸过程中，掰动卡柱3691，能够轻易的将过滤组件361取出。In this embodiment, the card member is provided with an inclined surface. When the filter assembly 361 is mounted, the first fixed arm of the fixed arm 3672 is first inserted into the hollow opening of the stereoscopic table 3696, and then the second fixing of the fixed arm 3672 is pressed downward. The arm and the post 3691 are bent away from the filter assembly 361 by the elastic force, and the second fixed arm slides along the inclined surface of the clip into the through hole of the support body 3692. After being installed in position, the post 3691 rebounds. The card assembly 361 is snapped; during the disassembly process, the post 3691 is tilted, and the filter assembly 361 can be easily taken out.

固定结构通过各个部件间的相互作用力将固定臂3672固定在一定的位置，为可分离式结构，固定效果好，方便安装和拆卸。The fixed structure fixes the fixed arm 3672 at a certain position by the interaction force between the respective components, and has a detachable structure, and has a good fixing effect and is convenient for installation and disassembly.

在本实施例中，固定臂3672的两臂上具有螺孔，可以通过螺孔将固定臂3672以螺纹连接的方式固定。In the present embodiment, the fixed arms 3672 have screw holes on both arms, and the fixing arms 3672 can be screwed through the screw holes.

第一连通管道364与过滤组件361和水泵362的进水口之间的连接方式为可拆卸式连接；第二连通管道365与水泵362的出水口和排水嘴结构363之间的连接方式为可拆卸式连接；上述可拆卸式连接，例如可以是通过螺旋连接，还可以利用软管的弹性实现套接，方便后期维护时管道定期 的清理，防止长时间的液体流动后在管道内积聚的杂质影响***的工作。The connection between the first communication pipe 364 and the water inlet of the filter assembly 361 and the water pump 362 is detachable; the connection between the second communication pipe 365 and the water outlet of the water pump 362 and the drain structure 363 is detachable. The above-mentioned detachable connection can be, for example, a spiral connection, and can also be sleeved by the elasticity of the hose, so that the pipeline can be periodically cleaned during the later maintenance, and the impurities accumulated in the pipeline after long-term liquid flow are prevented from being affected. The work of the system.

排水嘴结构363包括安装架3610，排水嘴本体341和用于密封的水盖3611，排水嘴本体341为中空结构，排水嘴本体341包括外置出水口342、固定板3613和排水口接头3614，第二连通管道365与排水口接头3614连接，水盖3611与外置出水口342连接。The drain nozzle structure 363 includes a mounting bracket 3610, a drain nozzle body 341 and a water cover 3611 for sealing. The drain nozzle body 341 is a hollow structure, and the drain nozzle body 341 includes an external water outlet 342, a fixed plate 3613 and a drain joint 3614. The second communication pipe 365 is connected to the water outlet joint 3614, and the water cover 3611 is connected to the external water outlet 342.

在本实施例中，固定板3613的平面与外置出水口342的轴线相垂直，固定排水嘴本体341；排水口接头3614与外置出水口342轴向相垂直，且排水口接头3614与外置出水口342相交，内部贯通，连接面部分采用圆弧形结构，从而平滑过渡，便于液体的流通，排水口接头3614的截面半径小于外置出水口342的截面半径；排水口接头3614的轴线与外置出水口342的轴线还可以成直角之外的其他角度。In this embodiment, the plane of the fixing plate 3613 is perpendicular to the axis of the external water outlet 342, and the drain nozzle body 341 is fixed; the drain port joint 3614 is perpendicular to the axial direction of the external water outlet 342, and the drain port joint 3614 and the outer portion The water outlets 342 intersect and are internally penetrated, and the connecting surface portion adopts a circular arc structure, thereby smoothly transitioning and facilitating the circulation of the liquid. The cross-sectional radius of the water outlet joint 3614 is smaller than the cross-sectional radius of the external water outlet 342; the axis of the water outlet joint 3614 The axis of the external water outlet 342 can also be at an angle other than a right angle.

在本实施例中，水盖3611与排水嘴本体341的连接方式为可拆卸式连接，例如可以是通过螺纹连接，排水***未处于制热模式下的工作状态时，水盖3611与排水嘴本体341相连接，防止灰尘等杂物进入机器内损害机器的运行，排水***处于制热模式下的工作状态时，拆下水盖3611，使得冷凝水可以通过排水嘴结构363流出。In this embodiment, the water cover 3611 and the drain nozzle body 341 are connected in a detachable manner, for example, by a screw connection, when the drainage system is not in the working state in the heating mode, the water cover 3611 and the drain nozzle body The 341 is connected to prevent dust and the like from entering the machine and impairing the operation of the machine. When the drainage system is in the working state in the heating mode, the water cover 3611 is removed, so that the condensed water can flow out through the drain structure 363.

在本实施例中，排水嘴结构363安装于于过滤组件361顶端水平面的上方，水泵362底端水平面的下方，便于液体的排出。In the present embodiment, the drain nozzle structure 363 is mounted above the horizontal plane of the top end of the filter assembly 361, below the horizontal plane of the bottom end of the water pump 362, to facilitate the discharge of liquid.

排水嘴本体341的固定板3613上设有一固定槽3615，对应的安装架3610上设有一固定孔，至少一连接结构贯穿固定槽3615与固定孔固定连接；并将固定板3613压紧固定，固定板3613上还设有至少一个定位孔3616，对应的底壳位置上设有至少一个定位部3617；定位部3617穿过定位孔3616，将排水嘴本体341卡在一定的高度，在本实施例中，固定孔和固定槽可通过螺纹连接，将排水嘴本体341固定。The fixing plate 3613 of the nozzle body 341 is provided with a fixing groove 3615. The corresponding mounting frame 3610 is provided with a fixing hole. At least one connecting structure is fixedly connected to the fixing hole through the fixing groove 3615. The fixing plate 3613 is pressed and fixed and fixed. The plate 3613 is further provided with at least one positioning hole 3616, and the corresponding bottom case is provided with at least one positioning portion 3617; the positioning portion 3617 passes through the positioning hole 3616, and the drainage nozzle body 341 is stuck at a certain height, in this embodiment. The fixing hole and the fixing groove can be fixed by screwing the drain body 341.

在本实施例中，排水口接头3614固定于安装架3610后，相较于水平面，外置出水口342内壁向下倾斜，便于水的排出。In the present embodiment, after the drain port joint 3614 is fixed to the mounting frame 3610, the inner wall of the external water outlet 342 is inclined downward to facilitate the discharge of water compared to the horizontal plane.

排水口接头3614、中空管道3673和水泵362的进水口、出水口的外表面均为波浪形结构，采用波浪形结构有利于提高各接口与软管的密封性，同时增大摩擦力，防止空调器使用过程中，软管意外脱落。The water inlet and the outer surface of the water outlet of the drain joint 3614, the hollow pipe 3673 and the water pump 362 are all wave-shaped structures, and the wave-shaped structure is used to improve the sealing performance of each interface and the hose, and at the same time increase the friction and prevent the air conditioner. The hose accidentally fell off during use.

排水嘴本体341为两端开口且两侧贯通的中空结构。The drain nozzle body 341 is a hollow structure that is open at both ends and penetrates both sides.

外置出水口342出水端底部设有一缺口，缺口由出水口底部向内凹陷而成，用于破坏水面张力，由于水面张力使得积聚的冷凝水堵住外置出水口342，无法顺利排出，缺口可以使地底盘内积聚的冷凝水高效排出，残留较少，缺口的形状可以是半圆形，椭圆形，三角形，多边形，梯形。The bottom of the outlet of the external water outlet 342 is provided with a notch, and the notch is formed by the bottom of the water outlet inwardly, which is used for destroying the water surface tension. The accumulated condensed water blocks the external water outlet 342 due to the water surface tension, and cannot be smoothly discharged. The condensed water accumulated in the ground pan can be efficiently discharged, and the residue is small, and the shape of the notch can be semicircular, elliptical, triangular, polygonal, trapezoidal.

排水嘴结构363还包括一外接缺口件346，外接缺口件346一侧端面设置有一套接部，套接部能够套接于排水嘴外部，从而将外接缺口件346与外置出水口342连接；外接缺口件346上设置有一缺口，缺口由远离套接部一侧端面向内凹陷而成，并与外置出水口342出水端底部的缺口正对。The drain structure 363 further includes an external notch member 346. The outer end of the outer notch member 346 is provided with a set of connecting portions, and the sleeve portion can be sleeved outside the drain nozzle to connect the outer notch member 346 to the external water outlet 342; The outer notch member 346 is provided with a notch, and the notch is recessed from the side facing away from the side of the socket portion, and is opposite to the notch at the bottom of the outlet end of the external water outlet 342.

套接部与外置出水口342的连接方式为可拆卸式，使得外置出水口342的适应性更好，可以套接不同的外接缺口件，或者不同的部件，使得应用性更广。The connection manner of the socket portion and the external water outlet 342 is detachable, so that the external water outlet 342 is more adaptable, and can be sleeved with different external notch members or different components, so that the application is wider.

外接缺口件346上还设置有一引水柱347，引水柱347为三角形结构，在外接缺口件346套接于外置出水口342后，引水柱347第一侧与外置出水口342端面贴合，引水柱347第二侧向下倾斜，并延伸至缺口的位置；引水柱347能够将外置出水口342端部的水引至缺口处从而滴落。A water guiding column 347 is further disposed on the external notch member 346. The water guiding column 347 has a triangular structure. After the external notch member 346 is sleeved on the external water outlet 342, the first side of the water guiding column 347 is attached to the end surface of the external water outlet 342. The second side of the water guiding column 347 is inclined downward and extends to the position of the notch; the water guiding column 347 can guide the water at the end of the external water outlet 342 to the notch to drip.

外置出水口342外壁上，还设有螺纹结构，可与水盖通过螺纹紧密，也可用于连接引水管道，螺纹结构简单，连接和密封效果好。The outer wall of the external water outlet 342 is also provided with a thread structure, which can be tightly threaded with the water cover, and can also be used for connecting the water guiding pipe, the thread structure is simple, and the connection and sealing effect is good.

使用状态下，外置出水口342的内壁相较于水平面向下倾斜，在斜面的作用下，液体更易于向下流动。In the use state, the inner wall of the external water outlet 342 is inclined downward with respect to the horizontal surface, and the liquid is more likely to flow downward under the action of the inclined surface.

在本公开的再一个实施例中，提供了一种移动空调器。为简要起见，与上述实施例相同或相似的内容不再赘述，以下仅重点描述其不同于上述实施例的内容。In still another embodiment of the present disclosure, a mobile air conditioner is provided. For the sake of brevity, the same or similar content as the above embodiment will not be described again, and only the content different from the above embodiment will be described below.

本实施例如图28所示，水槽区322内设置有至少一条支撑筋633，支撑筋633为板状结构，连接于水槽区322的底部；支撑筋633用于支撑放置于其上部的冷凝器，同时给水槽区322留出容置水的空间，且支撑筋633能够阻挡热风从水槽区322吹过，从而使热风更集中的吹在冷凝器上，减少风力流失。In this embodiment, as shown in FIG. 28, at least one support rib 633 is disposed in the water tank area 322. The support rib 633 is a plate-like structure connected to the bottom of the water tank area 322; and the support rib 633 is used to support the condenser placed at the upper portion thereof. At the same time, the water tank area 322 is left with a space for accommodating water, and the support ribs 633 can block the hot air from blowing through the water tank area 322, so that the hot air is more concentratedly blown on the condenser, reducing wind loss.

相邻支撑筋633之间留有空隙，形成互通的排水通道；避免水槽区322内的冷凝水产生死水区；支撑筋633的数量根据水槽区322空间的大小而定。A gap is left between the adjacent support ribs 633 to form an inter-connected drainage channel; the condensed water in the water tank area 322 is prevented from generating a dead water area; the number of the support ribs 633 depends on the size of the space of the water tank area 322.

在本公开的再一个实施例中，提供了一种移动空调器。为简要起见，与上述实施例相同或相似的内容不再赘述，以下仅重点描述其不同于上述实施例的内容。In still another embodiment of the present disclosure, a mobile air conditioner is provided. For the sake of brevity, the same or similar content as the above embodiment will not be described again, and only the content different from the above embodiment will be described below.

本实施例的挡水筋3926为多个挡水筋的组合，如图29和图30所示，包括：第一挡水筋325、第二挡水筋326、第三挡水筋327、第四挡水筋328和第五挡水筋329，挡水筋3926的高度沿着水槽区322的水流向吸水区321的方向依次增大，相邻挡水筋3926之间留有一定的间隙，相邻的挡水筋3926之间的连接通道3925的底部设置有排水口，并且挡水筋3926的高度均不高于连接通道3925的上边缘。这样设置的好处在于，一方面，可以减缓积水从水槽区322流入吸水区321的速度，使积水不足以溢出，另一方面，可以根据打水轮的功率选择高度合适的挡水筋。The water retaining rib 3926 of the embodiment is a combination of a plurality of water retaining ribs, as shown in FIG. 29 and FIG. 30, comprising: a first water retaining rib 325, a second water retaining rib 326, a third water retaining rib 327, and a The four water retaining ribs 328 and the fifth water retaining ribs 329, the height of the water retaining ribs 3926 sequentially increases along the water flow direction of the water tank area 322 toward the water absorbing area 321, and a certain gap is left between the adjacent water retaining ribs 3926. The bottom of the connecting passage 3925 between the adjacent water retaining ribs 3926 is provided with a drain opening, and the height of the water retaining rib 3926 is not higher than the upper edge of the connecting passage 3925. The advantage of this arrangement is that, on the one hand, the speed at which the accumulated water flows from the water tank area 322 into the water absorption area 321 can be slowed down, so that the accumulated water is insufficient to overflow, and on the other hand, the height-adjustable water retaining rib can be selected according to the power of the water wheel.

在本实施例中，挡水筋3926的顶端开设有多个缺口39261，减小积水漫过时水的张力，积水沿着缺口39261漫过，防止同时漫过的积水过多而造成积水溢出的现象的发生。进一步的，缺口39261阵列分布于挡水筋3926的顶部，呈波浪形分布。这样设置的好处在于，增大积水漫过时的通道，防止缺口39261过少，导致积水不能及时的溢出，阵列分布的缺口，也可以使积水均衡漫过挡水筋3926，同时，也可以增加结构的美观性。In this embodiment, the top end of the water retaining rib 3926 is provided with a plurality of notches 39261 to reduce the tension of the water when the water overflows, and the accumulated water flows along the notch 39261 to prevent the accumulated water from overflowing at the same time. The phenomenon of water overflow occurs. Further, the array of notches 39261 is distributed on the top of the water retaining ribs 3926 and is distributed in a wave shape. The advantage of this setting is that the channel when the accumulated water overflows is increased, the gap 39261 is prevented from being too small, and the accumulated water cannot be overflowed in time, and the gap of the array distribution can also make the water balance flow over the water retaining rib 3926, and at the same time, Can increase the aesthetics of the structure.

上所述仅为本发明的优选实施例而已，并不用以限制本公开，凡在本公开的精神和原则之内，所作的任何修改、等同替换、改进等，均应包含在本公开的保护范围之内。The above description is only for the preferred embodiment of the present invention, and is not intended to limit the disclosure. Any modifications, equivalent substitutions, improvements, etc., which are within the spirit and principles of the present disclosure, should be included in the protection of the present disclosure. Within the scope.

需要说明的是，本公开实施例中提到的方向用语，例如“顶”、“底”、“上”、“下”、“前”、“后”、“左”、“右”等，仅是参考附图的方向，并非用来限制本公开的保护范围。实际上，本公开中提到的“顶”、“底”可以被替换为“第一方向”、与“第一方向”相对的“第二方向”，“顶端”、“底端”可以被替换为“第一端”、与“第一端”相对的“第二端”，“顶部”、“底部”可以被替换为“第一端部”、与“第一端部”相对的“第二端部”。与此类似，本公开中的“上”、“下”，“前”、“后”，“左”、“右”也同样可以做上述替换。It should be noted that the directional terms mentioned in the embodiments of the present disclosure, such as “top”, “bottom”, “upper”, “lower”, “front”, “back”, “left”, “right”, etc., The directions are only referred to in the drawings, and are not intended to limit the scope of the disclosure. In fact, the "top" and "bottom" mentioned in the present disclosure may be replaced with "first direction", "second direction" opposite to "first direction", "top", "bottom end" may be Replaced with "first end", "second end" opposite to "first end", "top", "bottom" may be replaced with "first end", as opposed to "first end" Second end". Similarly, "upper", "lower", "front", "back", "left", and "right" in the present disclosure can also be replaced as described above.

Claims (28)

1. 一种移动空调器，包括：吸水区(321)、水槽区(322)、打水区(330)，其特征在于，还包括：A mobile air conditioner includes: a water absorption area (321), a water tank area (322), and a water flooding area (330), wherein the method further includes:

   挡水筋(3926)，用于将所述吸水区(321)与所述水槽区(322)隔离，以将所述水槽区(322)中的水引向所述打水区(330)。A water retaining rib (3926) for isolating the suction zone (321) from the sink zone (322) to direct water in the sink zone (322) to the water flooding zone (330).
2. 根据权利要求1所述移动空调器，其特征在于，还包括：汇聚部(332)，其位于所述打水区(330)和所述水槽区(322)之间，并靠近所述打水区(330)的汇聚口(331)，用于缓存由所述水槽区(322)引向所述打水区(330)的水。A mobile air conditioner according to claim 1, further comprising: a collecting portion (332) located between said water hitting area (330) and said water tank area (322), and adjacent to said water pumping A converging port (331) of the zone (330) for buffering water directed to the watering zone (330) by the sink zone (322).
3. 根据权利要求1所述移动空调器，其特征在于，所述吸水区(321)与所述水槽区(322)之间设置有连接通道(3925)；The mobile air conditioner according to claim 1, wherein a connecting passage (3925) is disposed between the water absorption region (321) and the water tank region (322);

   所述挡水筋(3926)设置于所述连接通道(3925)中，平行于所述连接通道(3925)的横截面，位于所述连接通道(3925)轴向任意位置。The water retaining rib (3926) is disposed in the connecting passage (3925), parallel to a cross section of the connecting passage (3925), at an axially arbitrary position of the connecting passage (3925).
4. 根据权利要求3所述移动空调器，其特征在于，所述挡水筋(3926)与所述连接通道(3925)一体成型。The mobile air conditioner according to claim 3, characterized in that the water retaining rib (3926) is integrally formed with the connecting passage (3925).
5. 根据权利要求3所述移动空调器，其特征在于，所述挡水筋(3926)插接于所述连接通道(3925)。The mobile air conditioner according to claim 3, characterized in that the water retaining rib (3926) is inserted into the connecting passage (3925).
6. 根据权利要求3所述移动空调器，其特征在于，所述挡水筋(3926)的数量为多个，多个所述挡水筋(3926)的高度沿所述水槽区(322)向所述吸水区(321)的方向依次增大。The mobile air conditioner according to claim 3, wherein the number of the water retaining ribs (3926) is plural, and the height of the plurality of water retaining ribs (3926) is along the water tank area (322) The direction of the water absorption zone (321) is sequentially increased.
7. 根据权利要求6所述移动空调器，其特征在于，相邻两个挡水筋(3926)之间留有间隙，相邻两个挡水筋(3926)之间的所述连接通道(3925)的底部设置有排水口，所述挡水筋(3926)的高度均不高于所述连接通道(3925)的上边缘。The mobile air conditioner according to claim 6, characterized in that a gap is left between two adjacent water retaining ribs (3926), and the connecting passage between the two adjacent water retaining ribs (3926) (3925) The bottom portion is provided with a drain port, and the height of the water retaining rib (3926) is not higher than the upper edge of the connecting passage (3925).
8. 根据权利要求2所述移动空调器，其特征在于，所述汇聚部(332)为中间低四周高的凹形结构。The mobile air conditioner according to claim 2, wherein said converging portion (332) is a concave structure having a low circumference in the middle.
9. 根据权利要求8所述移动空调器，其特征在于，所述凹形结构由多个汇聚面组合而成，所有所述汇聚面相交于汇聚点(333)，所述汇聚口(331)与所述汇聚点(333)在由所述水槽区(322)向所述汇聚部(332)的方向相互错开。The mobile air conditioner according to claim 8, wherein said concave structure is composed of a plurality of converging surfaces, all of said converging surfaces intersect at a converging point (333), said converging port (331) and said The convergence points (333) are offset from each other by the water tank area (322) toward the converging portion (332).
10. 根据权利要求9所述移动空调器，其特征在于，所述多个汇聚面包括：均为倾斜设置的汇聚面一(336)、汇聚面二(337)、汇聚面三(338)和汇聚面四(339)，所述凹形结构由所述汇聚面一(336)、所述汇聚面二(337)、所述汇聚面三(338)和所述汇聚面四(339)拼接而成，相邻的汇聚面之间均呈174度-178度的夹角。The mobile air conditioner according to claim 9, wherein the plurality of converging surfaces comprise: a converging surface one (336), a converging surface two (337), a converging surface three (338), and a converging surface which are both disposed obliquely. Four (339), the concave structure is formed by splicing the converging surface one (336), the converging surface two (337), the converging surface three (338), and the converging surface four (339), The adjacent converging surfaces are between 174 degrees and 178 degrees.
11. 根据权利要求10所述移动空调器，其特征在于，所述汇聚面一(336)和所述汇聚面三(338)的倾斜方向为由所述水槽区(322)向所述汇聚部(332)方向由高向低倾斜，其中所述汇聚面一(336)和所述汇聚面三(338)为靠近所述水槽区(322)的汇聚面。The mobile air conditioner according to claim 10, wherein an inclination direction of said converging surface one (336) and said converging surface three (338) is from said water tank area (322) to said converging portion (332) The direction is inclined from high to low, wherein the converging face one (336) and the converging face three (338) are converging faces close to the sink zone (322).
12. 根据权利要求9所述移动空调器，其特征在于，所述汇聚面为平面或弧形面的至少其中之一。The mobile air conditioner according to claim 9, wherein said converging surface is at least one of a flat surface or a curved surface.
13. 根据权利要求9所述移动空调器，其特征在于，所述汇聚部(332)与所述水槽区(322)之间设置有挡水结构(3310)，所述挡水结构(3310)开设有入水口(334)，所述入水口(334)与所述汇聚点(333)、所述汇聚口(331)沿所述水槽区(322)向所述汇聚部(332)的方向均相互错开。The mobile air conditioner according to claim 9, wherein a water retaining structure (3310) is disposed between the convergence portion (332) and the water tank region (322), and the water retaining structure (3310) is opened. The water inlet (334), the water inlet (334) and the convergence point (333), the convergence port (331) are staggered in the direction of the convergence portion (332) along the water tank region (322) .
14. 根据权利要求2所述移动空调器，其特征在于，所述汇聚部(332)与所述打水区(330)之间设置有挡水块(335)，将所述汇聚部(332)与所述打水区(330)隔开，所述挡水块(335)开设有所述汇聚口(331)。The mobile air conditioner according to claim 2, wherein a water blocking block (335) is disposed between the convergence portion (332) and the water-removing area (330), and the convergence portion (332) is The water-sending area (330) is spaced apart, and the water-blocking block (335) is provided with the collecting port (331).
15. 根据权利要求1所述移动空调器，其特征在于，还包括：The mobile air conditioner according to claim 1, further comprising:

    水位控制区(313)，用于容纳所述打水区(330)溢出的水；a water level control zone (313) for accommodating water overflowing from the watering zone (330);

    至少一个液位开关，位于所述水位控制区(313)上方，用于对所述水位控制区(313)中的水进行监控。At least one level switch is located above the water level control zone (313) for monitoring water in the water level control zone (313).
16. 根据权利要求15所述移动空调器，其特征在于，所述液位开关为多个，多个液位开关相对于所述水位控制区(313)的高度不同。The mobile air conditioner according to claim 15, wherein said plurality of liquid level switches are different, and a plurality of liquid level switches are different in height from said water level control area (313).
17. 根据权利要求16所述移动空调器，其特征在于，所述水位控制区(313)包括：多个存水槽，与多个所述液位开关一一对应，用于容纳所述打水区(330)溢出的水；所述液位开关通过固定支架悬挂于所述存水槽上方。The mobile air conditioner according to claim 16, wherein the water level control area (313) comprises: a plurality of water storage tanks, one-to-one corresponding to the plurality of liquid level switches, for accommodating the water-removing area ( 330) overflowing water; the liquid level switch is suspended above the water storage tank by a fixing bracket.
18. 根据权利要求17所述移动空调器，其特征在于，所述液位开关的 浮子的下表面低于对应存水槽的上边缘。The mobile air conditioner according to claim 17, wherein a lower surface of the float of the liquid level switch is lower than an upper edge of the corresponding water storage tank.
19. 根据权利要求17所述移动空调器，其特征在于，所述存水槽的槽底设置有排水口。The mobile air conditioner according to claim 17, wherein the bottom of the tank is provided with a drain port.
20. 根据权利要求15所述移动空调器，其特征在于，所述液位开关为一个，所述液位开关为多级液位开关(3930)；The mobile air conditioner according to claim 15, wherein said liquid level switch is one, and said liquid level switch is a multi-stage liquid level switch (3930);

    所述水位控制区(313)包括：存水槽，所述多级液位开关(3930)通过固定支架悬挂于所述存水槽上方。The water level control zone (313) includes: a water storage tank, and the multi-stage liquid level switch (3930) is suspended above the water storage tank by a fixing bracket.
21. 根据权利要求17所述移动空调器，其特征在于，所述液位开关包括：第一级液位开关(3921)和第二级液位开关(3922)；所述存水槽包括：第一存水槽(3947)和第二存水槽(3948)；The mobile air conditioner according to claim 17, wherein the liquid level switch comprises: a first level liquid level switch (3921) and a second level liquid level switch (3922); the water storage tank comprises: a first storage a water tank (3947) and a second water storage tank (3948);

    所述第一级液位开关(3921)悬挂固定于第一存水槽(3947)的上方，用于对所述第一存水槽(3947)的水位进行监控；The first level liquid level switch (3921) is suspended and fixed above the first water storage tank (3947) for monitoring the water level of the first water storage tank (3947);

    所述第二级液位开关(3922)悬挂固定于第二存水槽(3948)的上方，用于对所述第二存水槽(3948)的水位进行监控；The second level liquid level switch (3922) is suspended and fixed above the second water storage tank (3948) for monitoring the water level of the second water storage tank (3948);

    当所述第一存水槽(3947)存水的水位上升、所述第一级液位开关(3921)的浮子上升到达一级报警位置时，触发一级报警信号；当所述第二存水槽(3948)存水的水位上升、所述二级液位开关(3942)的浮子上浮到达二级报警位置时，触发二级报警信号。When the water level of the first water storage tank (3947) rises and the float of the first level liquid level switch (3921) rises to reach the first-level alarm position, the first-level alarm signal is triggered; when the second water storage tank (3948) When the water level of the stored water rises and the float of the secondary liquid level switch (3942) reaches the secondary alarm position, the secondary alarm signal is triggered.
22. 根据权利要求21所述移动空调器，其特征在于，所述第一存水槽(3947)与所述第二存水槽(3948)的深度不同。The mobile air conditioner according to claim 21, wherein said first water storage tank (3947) is different in depth from said second water storage tank (3948).
23. 根据权利要求1所述移动空调器，其特征在于，所述吸水区(321)的底部设置有凹槽(323)；The mobile air conditioner according to claim 1, wherein the bottom of the water absorption region (321) is provided with a groove (323);

    所述移动空调器还包括：排水结构，用于排出所述凹槽(323)中的水。The mobile air conditioner further includes a drainage structure for discharging water in the groove (323).
24. 根据权利要求23所述移动空调器，其特征在于，所述排水结构包括：The mobile air conditioner according to claim 23, wherein said drainage structure comprises:

    过滤组件(361)，安装在所述凹槽(323)内，用于过滤所述凹槽(323)内的水；a filter assembly (361) installed in the recess (323) for filtering water in the recess (323);

    水泵(362)，连接所述过滤组件(361)，用于吸取经所述过滤组件(361)过滤的水；a water pump (362) connected to the filter assembly (361) for sucking water filtered by the filter assembly (361);

    排水嘴结构(363)，连接所述水泵(362)，所述水泵(362)吸取的水经所述排水嘴结构(363)排出。The drain nozzle structure (363) is connected to the water pump (362), and the water sucked by the water pump (362) is discharged through the drain nozzle structure (363).
25. 根据权利要求1所述移动空调器，其特征在于，所述水槽区(322)内设置有至少一条支撑筋(633)。The mobile air conditioner according to claim 1, characterized in that at least one support rib (633) is disposed in the water tank area (322).
26. 根据权利要求1所述移动空调器，其特征在于，所述打水区(330)包括：打水结构，用于挥洒所述打水区(330)中的水。The mobile air conditioner according to claim 1, wherein said water hitting area (330) comprises: a water splashing structure for swaying water in said water hitting area (330).
27. 根据权利要求26所述移动空调器，其特征在于，所述打水结构包括：The mobile air conditioner according to claim 26, wherein the water-washing structure comprises:

    打水槽(316)，用于积聚水；Sink (316) for accumulating water;

    至少一打水轮(315)，至少部分的容置于所述打水槽(316)内，用于挥洒所述打水槽(316)内积聚的水；At least one water wheel (315) is at least partially received in the water tank (316) for squirting water accumulated in the water tank (316);

    打水电机(317)，与所述打水轮(315)连接，并驱动所述打水轮(315)转动。A water pump (317) is coupled to the water wheel (315) and drives the water wheel (315) to rotate.
28. 根据权利要求27所述移动空调器，其特征在于，所述至少一打水轮(315)包括：第一打水轮(3151)，第二打水轮(3152)，第三打水轮(3153)；所述第一打水轮(3151)、所述第二打水轮(3152)和所述第三打水轮(3153)均设置于所述打水槽(316)上方；所述第一打水轮(3151)和所述第二打水轮(3152)转动方向相同，所述第三打水轮(3153)与所述第一打水轮(3151)或所述第二打水轮(3152)的转动方向相反。The mobile air conditioner according to claim 27, wherein said at least one water wheel (315) comprises: a first water wheel (3151), a second water wheel (3152), and a third water wheel ( 3153); the first water wheel (3151), the second water wheel (3152), and the third water wheel (3153) are both disposed above the water tank (316); The first water wheel (3151) and the second water wheel (3152) rotate in the same direction, and the third water wheel (3153) and the first water wheel (3151) or the second water pump The wheel (3152) rotates in the opposite direction.

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