WO2021093246A1 - Water receiving disc and movable air conditioner - Google Patents

Abstract

A water receiving disc (100) and a movable air conditioner. The water receiving disc (100) comprises a cavity (110) having an upward opening, and a mounting recess (120) not communicated with the cavity (110) is formed on the lower side of the water receiving disc (100). The mounting recess (120) is configured to mount an electric control assembly (200).

Description

Drain tray and mobile air conditioner

Related application

This application requires the priority of the Chinese patent application filed on November 11, 2019, with the application number 201911099335.2, and the application name is "Water tray and mobile air conditioner"; for the application on November 11, 2019, the application number is 201921942663. X, the priority of the Chinese patent application named "Water Receiving Tray and Mobile Air Conditioner"; the priority of the Chinese patent application named "Mobile Air Conditioner" filed on November 11, 2019, the application number is 201921941502.9; And the priority of the Chinese patent application filed on November 11, 2019, the application number is 201921948197.6, and the application title is "Water tray assembly and mobile air conditioner"; the original text is hereby incorporated by reference.

Technical field

The application relates to the technical field of air conditioners, and in particular to a water receiving tray and a mobile air conditioner using the water receiving tray.

Background technique

In the mobile air conditioner, the water receiving tray is installed inside to divide the shell into an upper installation area and a lower installation area. The upper installation area is equipped with indoor heat exchangers and indoor air duct components, and the lower installation area is equipped with outdoor heat exchange. And outdoor air duct components. In addition, the electronic control components in the mobile air conditioner are usually installed on the water receiving tray, but when the exemplary electronic control component is installed above the water receiving tray, the condensed water on the water receiving tray is likely to be impacted on the electronic control component. The normal operation of the electronic control components.

The foregoing content is only configured to assist in understanding the technical solutions of the present application, and does not mean that the foregoing content is recognized as prior art.

Summary of the invention

technical problem

The solution to the problem

Technical solutions

The main purpose of this application is to propose a water receiving tray, which aims to improve the problem that the water in the water receiving tray is easy to hit the electronic control component.

In order to achieve the above-mentioned object, the water receiving tray proposed in the present application has a cavity with an opening facing upward, and a mounting groove not communicating with the cavity is formed on the lower side of the water receiving tray. The tank is configured to install electronic control components.

Optionally, the electrical control component includes an electrical control box and a first capacitor electrically connected to the electrical control box, and the installation slot includes a first installation slot for installing the electrical control box and a first capacitor for installing the first capacitor. The first installation groove is communicated with the second installation groove through an inlet and outlet hole, and one end of the first capacitor passes through the inlet and outlet hole and extends into the first installation groove.

Optionally, the water receiving tray includes a bottom wall, a side wall, and a shielding plate; the side wall is connected to the bottom wall and encloses the bottom wall to form the cavity, and the shielding plate is protruding from the bottom wall. The side wall extends in a direction away from the cavity; the first mounting groove is formed under the shielding plate.

Optionally, a part of the side wall is recessed in the direction of the cavity to form a recessed portion, the shielding plate is protrudingly provided on the recessed portion, and the recessed portion and the shielding plate are enclosed to form a recessed portion. Mentioned first installation slot.

Optionally, the edge of the notch of the first installation groove is convexly provided with a flange, and the flange extends in a direction away from the notch.

Optionally, the water receiving tray further includes a lower support plate connected to the protruding portion, the lower support plate is located below the shielding plate and is arranged opposite to the shielding plate, and the electric control box card Between the shielding plate and the lower support plate.

Optionally, the groove wall of the second installation groove is provided with a buffer member, and the first capacitor resists the buffer member when the first capacitor is installed in the second installation groove.

Optionally, the second installation groove includes an upper surrounding wall and a lower surrounding wall, the upper surrounding wall bulges from the bottom wall of the cavity toward the opening direction of the cavity, and one end of the upper surrounding wall is close to The other end of the first mounting groove is far away from the first mounting groove; the lower surrounding wall is located below the upper surrounding wall and is connected to an end of the upper surrounding wall away from the first mounting groove, so One end of the first capacitor away from the electric control box is clamped between the upper surrounding wall and the lower surrounding wall.

Optionally, the surface area of the lower support plate is smaller than the wall surface area of the shielding plate.

Optionally, the concave portion is convexly provided with a connecting column, and the electric control box is fixed to the connecting column through a connecting piece.

Optionally, the water receiving tray includes:

A water receiving tray body, the water receiving tray body has a bottom wall and a side wall surrounding the bottom wall, the side wall and the bottom wall enclosing to form the cavity with an opening facing upward;

A shielding member, the shielding member is arranged on the outer side of the side wall and arranged at an angle with the side wall to form a shielding space; and

The wire support, the wire support is arranged in the shielding space.

Optionally, the wire support member is provided on the outer side of the side wall and located below the shielding member.

Optionally, the blocking member is arranged perpendicular to the side wall.

Optionally, the shielding member includes a shielding plate fixedly connected to the side wall and a side wall provided at an end of the shielding plate, the shielding plate being perpendicular to the side wall, and the side wall being connected to the side wall. The shielding plate is arranged at an included angle and extends upward.

Optionally, the wire support has a second connecting portion fixedly connected to the side wall and a raised portion provided at a free end of the second connecting portion, and the raised portion and the side wall are different from each other. A wire groove configured to pass the wire body is formed therebetween.

Optionally, a fixing portion is provided between the second connecting portion and the side wall, and the fixing portion protrudes from the upper surface of the second connecting portion toward a side of the shielding member.

Optionally, the distance between the rib and the side wall is greater than or equal to the distance between the protrusion and the side wall.

Optionally, the shield and the drain pan body are an integral structure; and/or, the wire support and the drain pan body are an integral structure.

Optionally, the side wall is provided with a wire passing opening penetrating the cavity and the outside.

Optionally, the water receiving tray includes a plurality of the wire support members, and the plurality of wire support members are distributed on the side wall at intervals along the extension direction of the shielding member, and the shielding member is arranged along the The length of the side wall extends.

This application also proposes a mobile air conditioner, comprising a housing and the above-mentioned water receiving tray, the water receiving tray is installed in the housing and the housing is divided into an upper housing and a lower housing, the lower housing An outdoor heat exchanger is installed in the body, and the electric control component is installed on the air inlet side of the outdoor heat exchanger.

Optionally, the lower housing is provided with a first air inlet, and the electronic control assembly is provided corresponding to a part of the first air inlet.

This application also proposes a mobile air conditioner, including a shell, the above-mentioned water receiving tray and a waterproof structure; the shell is provided with an indoor heat exchanger and an outdoor heat exchanger; the middle partition is arranged in the shell and Is arranged between the indoor side heat exchanger and the outdoor side heat exchanger to receive the condensed water generated by the indoor side heat exchanger; the waterproof structure is arranged on the upper surface or under the water receiving pan On the surface, a second capacitor is arranged in the waterproof structure.

Optionally, the waterproof structure includes:

A boss piece, the boss piece is arranged on the upper surface of the water tray, and the second capacitor is arranged on the boss piece;

The enclosing flanging is arranged on the upper surface of the water receiving tray, and the enclosing flanging is arranged around the boss member.

Optionally, a water outlet is provided on the enclosing flange to drain the condensed water in the enclosing flange.

Optionally, the mobile air conditioner further includes:

A water collecting trough, the water collecting trough is formed by a downward depression of the water receiving pan, and the water flowing out of the water outlet flows into the water collecting trough;

A drainage port is opened at the bottom of the sump to drain the condensed water in the sump and flow to the outdoor heat exchanger.

Optionally, the boss member is arranged at an edge area of the water receiving tray,

The enclosed flanging includes:

Edge flanging, the edge flanging is arranged on the edge of the water receiving tray and extends upward;

Inner flanging, the inner flanging is arranged on the upper surface of the water receiving tray, and the inner flanging is connected with the inner flanging to form the enclosed flanging together.

Optionally, the mobile air conditioner further includes;

A fixing piece, the fixing piece is arranged on the upper surface of the drain pan and located in the enclosing flange, and the fixing piece is configured to fix the second capacitor on the boss piece.

Optionally, the mobile air conditioner further includes;

The limiting member, the limiting member is arranged on the upper surface of the water receiving tray or the boss member, and the limiting member abuts against the second capacitor to limit the installation of the second capacitor Moving in the process.

Optionally, the waterproof structure includes:

A bulge, the bulge is formed by bulging upward from the water receiving pan;

A closing plate, the closing plate is connected to the bottom end of the protruding portion, and enclosing the protruding portion to form an accommodating cavity, and the second capacitor is arranged in the accommodating cavity.

Optionally, the waterproof structure includes:

A convex column, the convex column is fixed on the enclosure plate and located in the accommodating cavity, and the second capacitor is fixed on the convex column.

Optionally, the waterproof structure further includes a via hole, which is opened on the protruding portion and corresponds to the protruding column up and down.

In the technical solution of the present application, the water receiving tray is provided with a cavity with an opening upward, and the water receiving tray is configured to receive condensed water. A mounting groove that is not connected to the cavity is formed on the lower side of the water receiving tray, that is, the mounting groove is at least There is a groove wall that shields the electronic control component above the electronic control component, and the groove wall of the installation groove plays the role of isolating the cavity and the electronic control component and isolating the components above the drain pan from the electronic control component. Therefore, the condensed water dripping from the top of the water receiving tray to the cavity is not easy to splash on the electronic control component in the installation slot, so that the electronic control component can obtain a better protection effect.

The beneficial effects of the invention

Brief description of the drawings

Description of the drawings

In order to more clearly describe the technical solutions in the embodiments of the present application or the prior art, the following will briefly introduce the drawings that need to be used in the description of the embodiments or the prior art. Obviously, the drawings in the following description are only These are some embodiments of the present application. For those of ordinary skill in the art, without creative work, other drawings can be obtained based on the structure shown in these drawings.

FIG. 1 is a schematic structural diagram of an embodiment in which an electric control component is installed on a water receiving tray according to the present application;

Fig. 2 is a schematic diagram of the structure of a part of the electric control box and the first capacitor installed on the water receiving tray of the application;

FIG. 3 is a schematic diagram of a partial structure of the first capacitor installed on the water receiving tray of this application;

FIG. 4 is a schematic structural diagram of an embodiment of a mobile air conditioner according to this application;

Figure 5 is a cross-sectional view of A-A in Figure 4;

Fig. 6 is a schematic structural diagram of an embodiment of a water receiving tray according to the application;

Fig. 7 is a partial enlarged view of B in Fig. 6;

FIG. 8 is a schematic structural diagram of another embodiment of a water receiving tray according to the application;

Figure 9 is a schematic diagram of the three-dimensional structure of the mobile air conditioner of the application;

Figure 10 is a schematic diagram of the explosive structure of the mobile air conditioner in this application;

FIG. 11 is a schematic diagram of a cooperative structure of a water receiving tray and a waterproof structure in a mobile air conditioner according to an embodiment of the application;

Fig. 12 is a schematic diagram of the structure of part C in Fig. 11;

FIG. 13 is a schematic diagram of a cooperative structure of a water receiving tray and a waterproof structure of a mobile air conditioner according to another embodiment of the application;

FIG. 14 is a schematic diagram of the structure of part D in FIG. 13.

Attached icon number description:

[Table 1]

Label	name	Label		name
100	water tray	110	Cavity
111	Bottom wall	112	Sidewall
120	Installation slot	121	The first installation slot
1211	Baffle	1212	Lower support plate
1213	Recessed part	1214	Flanging
1215	Connecting column	122	Second installation slot
1221	Upper surrounding wall	1222	Lower surrounding wall
101	Access hole	200	Electronic control components
210	Electric control box	211	First through hole
220	First capacitor	300	case
310	The first air inlet	400	Outdoor heat exchanger
130	Water tray body	500	Occluder
510	Sidewall	600	Wire support
610	Second connecting part	620	Bulge
630	Fixed part	700	Wire crossing
1	Mobile Air Conditioning	102	Second air inlet
103	Indoor air outlet	104	Chassis
11	Drain	12	Diversion ribs
20	Waterproof structure	201	Accommodating cavity
twenty one	Boss piece	twenty two	Close flanging
221	Edge flanging	222	Inside flanging
twenty three	Outlet	25	Bulge

26	Wing board	27	Convex post
28	Via	30	Second capacitor
31	Fixed part	32	Second through hole
40	Fastener	50	Limit parts
900	Buffer	To	To

The realization, functional characteristics, and advantages of the purpose of this application will be further described in conjunction with the embodiments and with reference to the accompanying drawings.

Invention embodiment

Embodiments of the present invention

The technical solutions in the embodiments of the present application will be clearly and completely described below in conjunction with the drawings in the embodiments of the present application. Obviously, the described embodiments are only a part of the embodiments of the present application, rather than all the embodiments. Based on the embodiments in this application, all other embodiments obtained by a person of ordinary skill in the art without creative work shall fall within the protection scope of this application.

It should be noted that if there are directional indications (such as up, down, left, right, front, back...) involved in the embodiments of this application, the directional indications are only configured to be interpreted in a specific posture. (As shown in the drawings), if the relative positional relationship and movement conditions of the components are changed, the directional indication will also change accordingly.

In addition, if there are descriptions related to "first", "second", etc. in the embodiments of the present application, the descriptions of "first", "second", etc. are only configured for descriptive purposes, and cannot be understood as instructions or Imply its relative importance or implicitly indicate the number of technical features indicated. Therefore, the features defined with "first" and "second" may explicitly or implicitly include at least one of the features. In addition, the technical solutions between the various embodiments can be combined with each other, but it must be based on what can be achieved by a person of ordinary skill in the art. When the combination of technical solutions is contradictory or cannot be achieved, it should be considered that such a combination of technical solutions does not exist. , Is not within the scope of protection required by this application.

This application proposes a drip tray 100.

In the embodiment of the present application, please refer to FIGS. 1 to 3 in combination. The water receiving tray 100 is provided with a cavity 110 with an upward opening, and a mounting groove 120 not communicating with the cavity 110 is formed on the lower side of the water receiving tray 100; The installation slot 120 is configured to install the electronic control assembly 200.

In an air conditioner, the water receiving tray 100 is usually arranged below the heat exchanger, and the water receiving tray 100 is configured to open the water-receiving cavity 110 upward, so that the condensed water generated on the heat exchanger passes through the cavity 110 The opening drips into the cavity 110 of the drip tray 100. In the technical solution of the present application, it should be noted that the installation groove 120 is formed on the lower side of the water tray 100, which means that the installation groove 120 has at least one shield, and the shield can control the electric control installed in the installation groove 120. The upper part of the assembly 200 is shielded, so that the groove wall of the installation groove 120 separates the condensed water that drops above the shield and the electronic control assembly 200 below the shield. The condensate that drops to the drain pan 100 is also splashed. It will not easily splash on the electronic control assembly 200 installed in the installation slot 120.

Specifically, the mounting groove 120 may be formed on the side of the bottom wall 111 of the cavity 110 facing away from the opening of the cavity 110. For example, the side of the bottom wall 111 of the cavity 110 away from the opening of the cavity 110 may be provided with at least two opposite sides. The side plate is provided, and the side plate and the bottom wall 111 of the cavity 110 can be jointly enclosed to form a mounting slot 120 for installing the electronic control component 200; or the bottom wall 111 of the cavity 110 bulges toward the opening direction of the cavity 110, so as to A side of the bottom wall 111 of the cavity 110 facing away from the opening of the cavity 110 forms a mounting groove 120 in which the electronic control component 200 can be mounted. The mounting groove 120 may also be formed outside the side wall 112 of the cavity 110. For example, outside the side wall 112 of the cavity 110 (that is, the side of the side wall 112 facing away from the cavity 110) may be protrudingly provided with a shielding member. The sidewall 112 of the cavity 110 encloses the mounting groove 120. In addition, the installation groove 120 may have only one opening, or may have multiple openings. It is understandable that when the installation groove 120 has only one opening, the installation groove 120 can wrap the electronic control assembly 200 in multiple directions to reduce the flow of condensed water into the installation groove 120; further, the opening of the installation groove 120 It can be opened in a direction away from the opening of the cavity 110, thereby further helping to reduce the flow of condensed water into the installation groove 120. When the mounting slot 120 has multiple openings, it is beneficial for the electronic control assembly 200 to dissipate heat.

In the technical solution of the present application, the water receiving tray 100 is provided with a cavity 110 with an upward opening, so that the water receiving tray 100 is located on the upper part of the condensed water generated by the cavity 110. The underside of the water tray 100 is formed with an installation groove 120 that is not in communication with the cavity 110, that is, the installation groove 120 has at least one groove wall that shields the electronic control component 200 above the electronic control component 200, and the groove of the installation groove 120 The wall functions to isolate the cavity 110 from the electronic control assembly 200 and to isolate the components above the water receiving tray 100 from the electronic control assembly 200, so that the condensed water dripping from the top of the water receiving tray 100 to the cavity 110 is not easy Splash on the electric control assembly 200 in the installation slot 120, so that the electric control assembly 200 has a better protection effect.

Specifically, as shown in FIG. 3, in this embodiment, the electric control assembly 200 includes an electric control box 210 and a first capacitor 220 electrically connected to the electric control box 210, and the installation slot 120 includes a first installation for installing the electric control box 210. The slot 121 and the second mounting slot 122 for installing the first capacitor 220 are communicated with the first mounting slot 121 and the second mounting slot 122 through the access hole 101. One end of the first capacitor 220 passes through the access hole 101 and extends into the first Inside the installation slot 121.

By connecting the first installation groove 121 and the second installation groove 122 through the inlet and outlet holes 101, one end of the first capacitor 220 passes through the inlet and outlet holes 101 and extends into the first installation groove 121, which further prevents the condensed water from splashing into the first installation groove. The capacitor 220 is connected so as to ensure the normal operation of the first capacitor 220. The first capacitor 220 in this application may be a press capacitor.

Further, as shown in FIG. 2, the electrical control box 210 is provided with a first through hole 211 facing the side wall 112 of the second mounting groove 122. The first through hole 211 communicates with the inlet and outlet holes 101, and one end of the first capacitor 220 passes through the first The through hole 211 extends into the electric control box 210.

By extending one end of the first capacitor 220 into the electric control box 210 through the first through hole 211 of the electric control box 210, this installation method is compared with the method of installing the first capacitor 220 and the electric control box 210 at intervals, The installation method of the first capacitor 220 in this embodiment can further make the installation space of the first capacitor 220 and the electric control box 210 smaller; in addition, the electric control box 210 can further protect the first capacitor 220 .

As shown in FIG. 1 or FIG. 2, in this embodiment, the water receiving tray 100 includes a bottom wall 111, a side wall 112, and a shielding plate 1211; the side wall 112 is connected to the bottom wall 111 and encloses the bottom wall 111 to form a cavity 110 The shielding plate 1211 is protruded from the side wall 112 and extends in a direction away from the cavity 110; the first mounting groove 121 is formed under the shielding plate 1211.

By protruding a shielding plate 1211 extending away from the cavity 110 on the side wall 112 of the water receiving tray 100, the first mounting groove 121 has at least two openings, thereby facilitating the electric control box 210 to dissipate heat. In addition, the above arrangement makes the formation process of the first installation groove 121 easier.

Further, part of the side wall 112 is recessed in the direction of the cavity 110 to form a concave portion 1213, the shielding plate 1211 protrudes from the concave portion 1213, and the concave portion 1213 and the shielding plate 1211 enclose a first installation groove 121.

With this arrangement, it is possible to make the end of the shielding plate 1211 (the end of the shielding plate 1211 away from the concave portion 1213) as flush as possible with the side wall 112 that is not recessed toward the cavity 110, so that the water receiving tray 100 and the The electronic control component of the water receiving tray 100 is more compact, which saves more installation space.

1 to 3, based on the above-mentioned formation structure of the first installation groove 121, in this embodiment, the first installation groove 121 further includes a lower support plate 1212 located below the shield plate 1211, the lower support plate 1212 and the shield plate 1211 is arranged oppositely, the lower support plate 1212 is connected to the lower end of the concave portion 1213, and the electric control box 210 is clamped between the shielding plate 1211 and the lower support plate 1212.

By setting the shielding plate 1211 and the lower support plate 1212 oppositely, the upper end of the recessed portion 1213 is connected to the shielding plate 1211, and the lower end is connected to the lower support plate 1212, the electric control box 210 can be first clamped between the shielding plate 1211 and the lower support plate 1212 , So as to pre-position the electric control box 210, so that there is no need for the worker to hold the bottom of the electric control box 210 with one hand and perform the subsequent fastening process with the other hand. Instead, the electric control box 210 is pre-positioned as described above. The electric control box 210 can be directly fastened.

Furthermore, as shown in FIG. 3, the surface area of the lower support plate 1212 is smaller than the wall surface area of the shielding plate 1211.

Through the above arrangement, the lower support plate 1212 can also increase the heat dissipation area of the electric control box 210 and improve the heat dissipation effect of the electric control box 210 on the basis of supporting the electric control box 210.

Further, as shown in FIG. 1 or FIG. 2, in order to improve the stability of the installation of the electrical control box 210, the concave portion 1213 is protrudingly provided with a connecting post 1215, and the electrical control box 210 is fixed to the connecting post 1215 through a connector.

Specifically, the connecting column 1215 may be formed with a first connecting hole, the outer wall of the electric control box 210 may be protrudingly provided with connecting ears, the connecting ears are provided with a second connecting hole, and the connecting piece passes through the first connecting hole of the connecting column 1215 and The second connecting hole of the connecting ear is used to fix the electric control box 210 on the connecting post 1215, so as to realize the effect of a fixed connection between the electric control box 210 and the groove wall of the installation groove 120. Among them, the connecting member can be a screw or a rivet.

It is understandable that when the connecting post 1215 is protrudingly provided on the concave portion 1213, the strength of the concave portion 1213 can be improved on the one hand, and the electric control box 210 can be prevented from being directly fixed to the concave portion 1213 through the connecting member. The strength of the portion 1213; on the other hand, it can also prevent the recessed portion 1213 from being penetrated by the connecting member and the occurrence of condensation water entering the electrical control box 210 through the recessed portion 1213.

In this embodiment, please refer to FIGS. 1 to 3 in combination. The second installation groove 122 includes an upper surrounding wall 1221 and a lower surrounding wall 1222. The upper surrounding wall 1221 is raised upward from the bottom wall 111 of the cavity 110, and the upper surrounding wall 1221 One end is close to the first installation groove 121, and the other end is away from the first installation groove 121; the lower surrounding wall 1222 is located below the upper surrounding wall 1221 and is connected to the end of the upper surrounding wall 1221 away from the first installation groove 121, and the first capacitor 220 is far away One end of the electric control box 210 is clamped between the upper surrounding wall 1221 and the lower surrounding wall 1222.

By connecting the lower surrounding wall 1222 below the end of the upper surrounding wall 1221 away from the first installation slot 121, the end of the first capacitor 220 away from the electric control box 210 is clamped between the upper surrounding wall 1221 and the lower surrounding wall 1222, On the one hand, the first capacitor 220 can be installed stably; on the other hand, the size of the lower surrounding wall 1222 is smaller than that of the upper surrounding wall 1221, so that the first capacitor 220 is not affected by condensation water as much as possible. Therefore, the first capacitor 220 has a sufficient heat dissipation area.

Furthermore, as shown in FIG. 3, the wall of the second installation groove 122 is provided with a buffer member 900, and the first capacitor 220 resists the buffer member 900 when the first capacitor 220 is installed in the second installation groove 122.

By arranging the buffer member 900 on the groove wall of the second installation groove 122, the first capacitor 220 is installed in the second installation groove 122, and its installation is more stable, and the buffer member 900 can also be more effective for the first capacitor 220. The good buffering effect prevents the first capacitor 220 from directly hitting the groove wall of the second mounting groove 122. Specifically, the buffer member 900 may be sponge or other elastic bodies. The shape of the buffer member 900 may be U-shaped, V-shaped or "one" shape; further, in order to ensure a better bonding effect between the buffer member 900 and the first capacitor 220, a U-shaped buffer member 900 can be selected.

As shown in FIG. 1 or FIG. 2, based on the above-mentioned formation structure of the first installation groove 121, in order to reduce the condensed water entering the first installation groove 121 through the groove wall edge of the first installation groove 121, in this embodiment, the first installation A flange 1214 is protruded from the edge of the slot of the slot 121, and the flange 1214 extends in a direction away from the slot.

In another embodiment of this application, for ease of presentation, the "drain tray assembly" in the previous application examples cited in this application is replaced with a "drain tray" with the same substantive scheme; the "bottom plate" is replaced with "Bottom wall"; "cavity" is uniformly replaced with "cavity". As shown in Figures 6 to 8, the water tray 100 includes a water tray body 130, a shield 500 and a wire support 600; the water tray body 130 has a bottom wall 111 and a side wall surrounding the bottom wall 111. The wall 112, the side wall 112 and the bottom wall 111 enclose a cavity 110 with an opening upward; the shield 500 is arranged on the outside of the side wall 112 and is arranged at an angle with the side wall 112 to form a shielding space; The support 600 is arranged in the shielding space.

The drain pan body 130 is mainly used to receive the condensed water in the air conditioner. The bottom wall 111 and the side wall 112 are enclosed to form a cavity 110 with an upward opening, so that the condensed water received by the drain pan body 130 can be stored in In the cavity 110, the condensation water is prevented from falling elsewhere and affecting the performance of the air conditioner. The outer side of the side wall 112 is provided with a shield 500, and a shielding space is formed below the shield 500. The wire support 600 is arranged in the shielding space, and the wire support 600 is configured to support the wire, thereby realizing the The wire body on the wire body support 600 performs the function of shielding and hiding, thereby preventing the wire body from being exposed to the outside of the drain pan body 130, reducing potential safety hazards, and achieving the effect of improving safety.

It is understandable that the specific structure of the shield 500 can be determined according to actual conditions, as long as it can ensure that the wiring space below the shield 500 can be shielded, for example, the shield 500 can be a baffle or a boss Wait. Of course, the specific position of the shield 500 can also be determined according to actual conditions. For example, it can be arranged on the top of the side wall 112 or the middle of the side wall 112, as long as it is arranged above the linear support 600.

In the actual application process, the specific structure of the wire support 600 can also be determined according to the actual situation, as long as it can ensure that the wire can be supported or stuck. For example, the wire support 600 can be a wire buckle or a card. The specific installation position of the wire support 600 can be a structure connected with the side wall 112 or a structure connected with the shield 500, as long as it is ensured to be located in the shielding space.

In the technical solution of the present application, a shield 500 is provided on the outer side of the side wall 112 of the water tray body 130, and a wire support 600 is arranged below the shield 500, so that the shield 500 and the wire support 600 are formed between the shield 500 and the wire support 600. The shield 500 and the side wall 112 are arranged at an angle, so that the shield 500 can block the wire under the shield 500, thereby preventing the wire from being exposed to the water tray body 130. Externally, water is prevented from splashing on the wire body, achieving the effect of improving safety.

In an embodiment of the present application, the wire support member 600 is provided on the outer side of the side wall 112 and located below the shielding member 500. The wire support 600 is directly connected to the side wall 112, so that a wiring space is formed between the wire support 600 and the shield 500, so as to realize the function of supporting and hiding the wire.

Further, in order to make the shielding effect of the wire body better, the shielding member 500 is arranged perpendicular to the side wall 112. The shield 500 is arranged perpendicular to the side wall 112, so that the shield 500 covers a larger area below, thereby increasing the safety of the wire under the shield 500.

In an embodiment of the present application, for ease of presentation, the "first connecting portion" in the previous application examples cited in this application is replaced by a "shielding plate". The shield 500 includes a shield plate 1211 fixedly connected to the side wall 112 and a side wall 510 arranged at the end of the shield plate 1211. The shield plate 1211 is perpendicular to the side wall 112, and the side wall 510 and the shield plate 1211 form a clip. The corners are set and extend upward. At this time, the shielding plate 1211 is vertically arranged with the side wall 112, and mainly plays a role of shielding the lower wire body. The rib 510 is located at the end of the shielding plate 1211 and extends upward at an included angle, so that the condensed water dripping into the drain pan body 130 will not splash to the outside and play a role in blocking the splashing of the condensed water.

Further, as shown in FIGS. 1 and 2, the wire support 600 has a second connecting portion 610 fixedly connected to the side wall 112 and a protrusion 620 provided at the free end of the second connecting portion 610. The protrusion Between the portion 620 and the side wall 112 is formed a wire slot configured for a wire to pass through. A wire groove is formed between the raised portion 620 and the side wall 112. At this time, the wire body is located on the second connecting portion 610, and the main function of the raised portion 620 is to prevent the wire body from falling out. In the actual application process, the protrusion 620 can be a boss or an arc-shaped structure with an opening facing downward. When it is an arc-shaped structure with an opening facing downward, the upward side of the protrusion 620 is an arc-shaped surface, so that the line The body is more convenient to install.

Further, as shown in FIGS. 1 and 2, a fixing portion 630 is provided between the second connecting portion 610 and the side wall 112, and the fixing portion 630 protrudes from the side of the second connecting portion 610 toward the side of the shield 500. Upper surface. At this time, the fixing portion 630, the second connecting portion 610, and the protrusion 620 form a U-shaped groove, so as to make the wire body more stable during the wire routing process and prevent the wire body from falling out. The second connecting portion 610 is fixedly connected to the side wall 112 through the fixing portion 630. The connecting area of the fixing portion 630 and the side wall 112 is larger than the connecting area of the second connecting portion 610, so that the second connecting portion 610 and the side wall 112 are connected The connection is more stable.

In an embodiment of the present application, in order to make the wire body more concealed, the distance from the rib 510 to the side wall 112 is greater than or equal to the distance from the protrusion 620 to the side wall 112. At this time, it is equivalent to that the shield 500 can completely shield the wire support 600, so that the wire on the wire support 600 is better shielded, thereby improving the safety of the wire.

Further, the connection method between the shield 500 and the drain pan body 130 may be determined according to actual conditions, such as screw fixation, snap fixation, or adhesive fixation. In the embodiments of the present application, cost and process are considered. In terms of difficulty, the shield 500 and the drain pan body 130 adopt an integrated structure.

The connection method between the wire support 600 and the water tray body 130 can be determined according to actual conditions, such as screw fixing, snap fixing, or adhesive fixing. In the embodiments of the present application, cost and process difficulty are considered. For ease of use, the wire support 600 and the drain pan body 130 adopt an integrated structure.

Further, as shown in FIG. 1, the side wall 112 is provided with a wire passing port 700 penetrating through the cavity 110 and the outside, so that the wire body can pass through the side wall 112 of the water tray body 130 for wire routing operation.

In an embodiment of the present application, the water receiving tray 100 includes a plurality of wire support members 600, and the plurality of wire support members 600 are spaced apart on the side wall 112 along the extending direction of the shielding member 500, and the shielding member 500 is arranged along the side The length of the wall 112 extends. The multiple wire support members 600 are distributed at intervals to make the wire more stable during the wire routing process. At the same time, the multiple wire support members 600 simultaneously support and fix the wire body, which avoids the phenomenon of the wire body being scattered.

This application also proposes a mobile air conditioner 1. Please refer to FIGS. 4 and 5 in combination. The mobile air conditioner 1 includes a housing 300 and a water receiving tray 100. The specific structure of the water receiving tray 100 refers to the above-mentioned embodiment. 1 All the technical solutions of all the above-mentioned embodiments are adopted, and therefore at least all the beneficial effects brought by the technical solutions of the above-mentioned embodiments are provided, which will not be repeated here. Wherein, the water receiving pan 100 is installed in the housing 300 and the housing 300 is divided into an upper housing and a lower housing. The outdoor heat exchanger 400 is installed in the lower housing, and the electric control assembly 200 is installed in the outdoor heat exchanger 400. On the inlet side.

The water receiving tray 100 is installed in the housing 300 and the housing 300 is divided into an upper housing and a lower housing. The upper part of the water receiving tray 100 is the inner cavity of the upper housing, and the lower part of the water receiving tray 100 is the inner cavity of the lower housing. Lumen. It can be understood that, if the electric control assembly 200 is installed below the water receiving tray 100, the electric control assembly 200 is located in the inner cavity of the lower housing. The inner cavity of the lower shell can be installed with an outdoor heat exchanger 400 and an outdoor air duct assembly. The lower shell is provided with a first air inlet 310 and a first air outlet. The first air inlet 310 and the first air outlet are sequentially provided with an outdoor heat exchanger. Heater 400 and outdoor air duct assembly. In the cooling condition, the temperature of the wind blowing from the first air outlet is higher than the temperature of the wind sucked in by the first air inlet 310. Further, by installing the electric control assembly 200 on the air inlet side of the outdoor heat exchanger 400, the electric control assembly 200 can be blown by the wind blowing in from the first air inlet 310, thereby facilitating the effectiveness of the electric control assembly 200 Ground for heat dissipation. Of course, the inner cavity of the upper shell can be installed with an indoor heat exchanger and an indoor air duct assembly, the upper shell is provided with a second air inlet and a second air outlet, and the indoor heat exchanger and indoor air duct assembly are sequentially installed at the second air inlet and Between the second air outlet.

Furthermore, as shown in FIG. 5, in this embodiment, the electronic control assembly 200 is provided corresponding to a part of the first air inlet 310. By arranging the electronic control assembly 200 to correspond to a part of the first air inlet 310, the wind blown from the first air inlet 310 can be directly blown onto the electronic control assembly 200, thereby further improving the heat dissipation effect of the electronic control assembly 200.

Please refer to Figures 5, 9 to 14 together. This application also provides a mobile air conditioner 1. For ease of presentation, the "central partition" in the previous application examples cited in this application is replaced by "receiving water". Disk"; "Indoor heat exchanger" is replaced with "Indoor heat exchanger"; "Outdoor heat exchanger" is replaced with "Outdoor heat exchanger"; "Fan capacitor" is replaced with "Second capacitor" ". The mobile air conditioner 1 includes: a housing 300, a water receiving tray 100, and a waterproof structure 20. The housing 300 is provided with an indoor heat exchanger and an outdoor heat exchanger 400; Between the heat exchanger and the outdoor heat exchanger 400, it is configured to receive the condensed water generated by the indoor heat exchanger; the waterproof structure 20 is arranged on the upper or lower surface of the water receiving tray 100, and the second capacitor is arranged in the waterproof structure 20 30.

In this embodiment, the second capacitor 30 may be a fan capacitor, and the housing 300 serves as the appearance structure of the mobile air conditioner 1, and the housing 300 is also provided with a heat exchange air duct (not shown) above the water receiving tray 100 and The compressor (not shown) and other components located under the water tray 100, the two ends of the heat exchange air duct are formed on the housing 300 with a second air inlet 102 and an indoor air outlet 103, wherein the second air inlet 102 corresponds to An indoor heat exchanger is provided, and a wind wheel (not shown in the figure) is also provided in the heat exchange air duct. Driven by the wind wheel, indoor air enters the mobile air conditioner 1 from the second air inlet 102, and passes through the indoor heat exchanger to exchange heat. The air duct is blown back into the room from the indoor air outlet 103 to realize the control of the indoor temperature. An outdoor heat exchanger 400 and a compressor (not shown) are arranged under the water receiving tray 100. A refrigerant circuit is formed between the outdoor heat exchanger 400, the compressor and the indoor heat exchanger to provide cooling for the indoor heat exchanger The outdoor heat exchanger 400 and the compressor are provided with a chassis 104 below the outdoor heat exchanger 400 and the compressor, and the outdoor heat exchanger 400 and the compressor are installed on the chassis 104.

In this embodiment, the second capacitor 30 may be a fan capacitor. During the cooling process of the indoor heat exchanger, the indoor heat exchanger, the air duct shell forming the air duct, and the air duct sealing plate will produce condensed water, and the condensed water will fall onto the drain pan 100 below under the action of gravity. For example, a waterproof structure 20 is provided on the upper surface or the lower surface of the drain pan 100, and the second capacitor 30 electrically connected to the fan is placed in the second capacitor 30 to prevent the condensation water from flooding the second capacitor 30 and ensure the first The second capacitor 30 works normally, and at the same time, the risk of leakage of the second capacitor 30 is eliminated.

12, in an embodiment, the waterproof structure 20 includes: a boss member 21, the boss member 21 is arranged on the upper surface of the water tray 100, the second capacitor 30 is arranged on the boss member 21; 22. The enclosing flange 22 is arranged on the upper surface of the water receiving tray 100, and the enclosing flange 22 is arranged around the boss member 21.

In this embodiment, by providing the boss member 21 on the upper surface of the water receiving tray 100, the boss member 21 is higher than the upper surface of the water receiving tray 100 in the height direction of the mobile air conditioner 1, so as to prevent the boss member 21 from being on the upper surface. The second capacitor 30 is submerged by condensed water; further, a surrounding flange 22 is provided around the boss member 21, and the surrounding flange 22 is arranged around the boss member 21. The water receiving pan 100 can be prevented by the surrounding flange 22. The condensed water in other parts of the upper part flows to the position of the second capacitor 30, which further prevents the second capacitor 30 from being submerged by the condensed water.

Please refer to FIG. 12, optionally, a water outlet 23 is provided on the enclosing flange 22 to discharge the condensed water in the enclosing flange 22.

In this embodiment, by opening a water outlet 23 on the enclosing flanging 22, the bottom of the outlet 23 is flush with the upper surface of the water receiving tray 100, and drips can be dropped into the enclosing flanging 22 through the water outlet 23. The condensed water is discharged to prevent the second capacitor 30 from being flooded by the water level in the enclosed flange 22 being too high.

Referring to FIG. 11, optionally, the mobile air conditioner 1 further includes: a water collection trough 11, which is formed by a downward depression of the water receiving tray 100, and the water flowing out of the water outlet 23 flows into the water collection trough 11; a water outlet 12, a drainage port 12 is opened at the bottom of the water collection tank 11 to drain the condensed water from the water collection tank 11 and flow to the outdoor heat exchanger 400.

In this embodiment, the water collection tray 100 is recessed downward to form a water collection trough 11, which is located in the middle of the water collection tray 100. It can be understood that it can also be set in other positions; the water collection trough extends to the water outlet 23 Nearby, the condensed water flowing out from the water outlet 23 collects in the water collection tank 11. Further, the bottom of the sump 11 is provided with a plurality of drains 12, and the condensed water in the sump 11 can be drained through the drains 12. The drains 12 are preferably arranged in rows, of course, other arrangements such as arrays can also be used. Arrangement, etc.; an outdoor heat exchanger 400 is provided below the drain 12, so that the outdoor heat exchanger 400 is radiated and cooled by condensed water.

Referring to FIG. 12, optionally, the boss member 21 is disposed on the edge area of the water receiving tray 100, and the enclosing flange 22 includes: an edge flange 221, which is disposed on the edge of the water tray 100 and extends upward; The flange 222 and the inner flange 222 are arranged on the upper surface of the water receiving tray 100, and the inner flange 222 is connected with the inner flange 222 to form a closed flange 22 together.

In this embodiment, by arranging the boss member 21 at the edge area of the water receiving tray 100, the original waterproof side flanging part of the water receiving tray 100, that is, the edge flanging 221 is reused as the enclosing flanging 22 In the manufacturing process, only the inner flange 222 is provided on the inner side of the upper surface of the water tray 100, and the inner flange 222 and the edge flange 221 at the edge of the water tray 100 are enclosed together to form an enclosure. The flanging 22 can simplify the manufacturing process of the enclosing flanging 22 and reduce the production cost. Furthermore, arranging the boss member 21 at the edge area of the water receiving tray 100 can prevent a large amount of condensation water from falling into the enclosing flange 22.

Referring to FIG. 12, optionally, the mobile air conditioner 1 further includes; a fixing member 40, which is arranged on the upper surface of the water receiving tray 100 and is located in the enclosing flange 22, and the fixing member 40 is configured to connect the second capacitor 30 Fixed on the boss member 21.

In this embodiment, the fixing member 40 can be a cylinder with internal threads, or it can be a buckle, etc. The fixing member 40 is arranged around the boss member 21; a fixing portion 31 may extend from the second capacitor 30, and the second capacitor 30 After the capacitor 30 is placed on the boss member 21, the fixing portion 31 is snap-fitted with the buckle to realize the second capacitor 30 is fixed on the boss member 21, or a second through hole 32 is opened in the fixing portion 31, and the screw ( (Not shown) through the second through hole 32 to fit with the cylindrical thread, thereby fixing the second capacitor 30 on the boss member 21.

Referring to FIG. 12, optionally, the mobile air conditioner 1 further includes; a limiting member 50, the limiting member 50 is provided on the upper surface of the water receiving tray 100 or the boss member 21, the limiting member 50 is in contact with the second capacitor 30 Is connected to limit the movement of the second capacitor 30 during the installation process.

In this embodiment, by providing a limiting member 50 on the upper surface of the water receiving tray 100 or the boss member 21, the limiting member 50 abuts against the second capacitor 30 to limit the movement of the second capacitor 30 during the installation process. Specifically, the limiting member 50 may be a plurality of convex edges arranged around the boss member 21, preferably an L-shaped convex edge, and arranged at the corner positions of the boss member 21. During the installation process, the second After the capacitor 30 is placed on the boss member 21, the movement of the second capacitor 30 is restricted by the L-shaped convex edge, so as to achieve the effect of facilitating installation.

13 and 14 together, in another embodiment, the waterproof structure 20 includes: a protruding portion 25, the protruding portion 25 is formed upwardly from the water receiving pan 100; a joint plate 26, the joint plate 26 and the bottom of the protruding portion 25 The two ends are connected and enclose the protruding portion 25 to form an accommodation cavity 201, and the second capacitor 30 is disposed in the accommodation cavity 201.

In this embodiment, the water receiving tray 100 is raised upwards to form a raised portion 25, the raised portion 25 and the enclosing plate 26 are enclosed to form an accommodating cavity 201, and the second capacitor 30 is disposed in the accommodating cavity 201, due to the accommodating The cavity 201 is disposed on the lower surface of the drain pan 100, so the condensed water on the upper surface of the drain pan 100 cannot enter the accommodating cavity 201, which effectively prevents the second capacitor 30 from being submerged by the condensed water. Further, the protruding portion 25 is preferably arranged at the edge area of the water receiving tray 100 so as to facilitate the installation of the second capacitor 30 in the accommodating cavity 201. Specifically, the raised portion 25 has three side walls (not shown) connected perpendicularly to each other in pairs after being raised. The enclosing plate 26 is an L-shaped plate, and the two ends of the L-shaped plate are respectively connected to two of the side walls to A accommodating cavity 201 is formed; the raised portion 25 and the enclosing plate 26 can be integrally formed or formed separately.

Please refer to FIG. 14, optionally, the waterproof structure 20 includes: a protruding post 27, the protruding post 27 is fixed on the enclosing plate 26 and located in the accommodating cavity 201, and the second capacitor 30 is fixed on the protruding post 27.

In this embodiment, by arranging a plurality of protrusions 27 on the enclosing plate 26, the second capacitor 30 is fixed on the protrusions 27, so that the second capacitor 30 is raised by the protrusions 27 to avoid generation in the accommodating cavity 201 The second capacitor 30 is flooded by the condensed water or the condensed water accidentally falling into the accommodating cavity 201. Further, the second capacitor 30 extends from a fixing portion 31, the fixing portion 31 is provided with a second through hole 32, at least one of the protruding posts 27 is provided with an internal thread, and a screw (not shown) passes through the second through hole. 32 is threadedly engaged with the boss 27 to fix the second capacitor 30 on the boss 27.

Please refer to FIG. 14. Optionally, the waterproof structure 20 further includes a via 28. The via 28 is opened on the protruding portion 25 and corresponds to the boss 27 up and down.

In this embodiment, through holes 28 are provided on the bulge 25, and the through holes 28 correspond to the boss 27 up and down, and the installation tool, such as a screwdriver, passes through the through holes 28 to tighten the screws on the boss 27, thereby realizing the second The capacitor 30 is firmly mounted on the protrusion 27.

The foregoing descriptions are only optional embodiments of the application, and do not limit the scope of the patent for this application. Under the inventive concept of the application, any equivalent structural transformation made by using the content of the specification and drawings of the application, or direct/indirect Applications in other related technical fields are included in the scope of patent protection of this application.

Claims (32)

1. A water-receiving tray, wherein the water-receiving tray has a cavity with an opening facing upward, a mounting groove not communicating with the cavity is formed on the lower side of the water-receiving tray, and the mounting groove is configured for mounting Electronic control components.
2. The water receiving tray according to claim 1, wherein the electronic control component includes an electronic control box and a first capacitor electrically connected to the electronic control box, and the installation slot includes a first capacitor for installing the electronic control box. The installation groove and the second installation groove for installing the first capacitor, the first installation groove and the second installation groove are communicated through an inlet and outlet hole, and one end of the first capacitor passes through the inlet and outlet hole and extends Into the first installation slot.
3. The water receiving tray according to claim 2, wherein the water receiving tray includes a bottom wall, a side wall, and a shielding plate; the side wall is connected to the bottom wall and surrounds the bottom wall to form the container In the cavity, the shielding plate is protrudingly provided on the side wall and extends in a direction away from the cavity; the first mounting groove is formed under the shielding plate.
4. The water receiving tray according to claim 3, wherein a part of the side wall is recessed toward the cavity to form a concave portion, the shielding plate is protrudingly formed on the concave portion, and the concave portion Enclosed with the shielding plate to form the first installation groove.
5. The water receiving tray according to claim 3, wherein the edge of the notch of the first installation groove is protruded with a flange, and the flange extends in a direction away from the notch.
6. The water receiving tray according to claim 4, wherein the water receiving tray further comprises a lower support plate connected to the concave portion, the lower support plate is located under the shielding plate and opposite to the shielding plate Set; The electric control box is stuck between the shielding baffle and the lower support plate.
7. 7. The water receiving tray according to claim 6, wherein the area of the lower support plate is smaller than the area of the wall of the shielding plate.
8. 7. The water receiving tray according to claim 6, wherein the concave portion is protrudingly provided with a connecting column, and the electric control box is fixed to the connecting column through a connecting piece.
9. The water receiving tray according to any one of claims 3 to 8, wherein the groove wall of the second installation groove is provided with a buffer member, and the first capacitor is installed in the second installation groove against the述Buffering pieces.
10. 8. The drip tray according to any one of claims 3 to 8, wherein the second installation groove comprises:

    An upper surrounding wall, the upper surrounding wall bulges upward from the bottom wall of the cavity; and one end of the upper surrounding wall is close to the first installation groove, and the other end is away from the first installation groove; and

    A lower surrounding wall, the lower surrounding wall is located below the upper surrounding wall and connected to an end of the upper surrounding wall away from the first installation slot, and an end of the first capacitor away from the electric control box is clamped Between the upper surrounding wall and the lower surrounding wall.
11. The water receiving tray according to claim 1, wherein the water receiving tray comprises:

    A water receiving tray body, the water receiving tray body has a bottom wall and a side wall surrounding the bottom wall, the side wall and the bottom wall enclosing to form the cavity with an opening facing upward;

    A shielding member, the shielding member is arranged on the outer side of the side wall and arranged at an angle with the side wall to form a shielding space; and

    The wire support, the wire support is arranged in the shielding space.
12. The water receiving tray according to claim 11, wherein the wire support member is provided on the outer side of the side wall and located below the shielding member.
13. The water receiving tray according to claim 11, wherein the blocking member is perpendicular to the side wall.
14. The water receiving tray according to claim 13, wherein the shielding member includes a shielding plate fixedly connected to the side wall and a side wall provided at an end of the shielding plate, and the shielding plate is connected to the side wall. The wall is arranged vertically, and the retaining edge and the shielding plate are arranged at an included angle and extend upward.
15. The water receiving tray according to claim 14, wherein the wire support member has a second connecting portion fixedly connected to the side wall and a protruding portion provided at a free end of the second connecting portion, the A wire groove configured to pass a wire body is formed between the raised portion and the side wall.
16. The water receiving tray according to claim 15, wherein a fixing portion is provided between the second connecting portion and the side wall, and the fixing portion protrudes from the second side toward the side of the shielding member. The upper surface of the connecting part.
17. The water receiving tray according to claim 15, wherein the distance between the rib and the side wall is greater than or equal to the distance between the protrusion and the side wall.
18. The drain pan according to any one of claims 11 to 17, wherein the shield and the drain pan body are an integral structure; and/or, the wire support and the drain pan body As a one-piece structure.
19. The water receiving tray according to any one of claims 11 to 17, wherein the side wall is provided with a wire passage opening through the cavity and the outside.
20. The water receiving tray according to any one of claims 11 to 17, wherein the water receiving tray comprises a plurality of the wire support members, and the plurality of wire support members are spaced apart along the extending direction of the shielding member Distributed on the side wall, the shielding member extends along the length direction of the side wall.
21. A mobile air conditioner, comprising a housing and the water receiving tray according to any one of claims 1 to 20, the water receiving tray is installed in the housing and the housing is divided into upper housings And a lower shell, an outdoor heat exchanger is installed in the lower shell, and the electric control assembly is installed on the air inlet side of the outdoor heat exchanger.
22. 21. The mobile air conditioner according to claim 21, wherein the lower housing is provided with a first air inlet, and the electronic control assembly is provided corresponding to a part of the first air inlet.
23. A mobile air conditioner, comprising a shell, the water receiving tray according to any one of claims 1 to 20, and a waterproof structure; the shell is provided with an indoor heat exchanger and an outdoor heat exchanger; the middle The partition plate is arranged in the housing and between the indoor side heat exchanger and the outdoor side heat exchanger to receive the condensed water generated by the indoor side heat exchanger; the waterproof structure is arranged at all On the upper surface or the lower surface of the water receiving tray, a second capacitor is arranged in the waterproof structure.
24. The mobile air conditioner of claim 23, wherein the waterproof structure comprises:

    A boss piece, the boss piece is arranged on the upper surface of the water tray, and the second capacitor is arranged on the boss piece;

    The enclosing flanging is arranged on the upper surface of the water receiving tray, and the enclosing flanging is arranged around the boss member.
25. The mobile air conditioner according to claim 24, wherein a water outlet is opened on the enclosed flanging to discharge the condensed water in the enclosed flanging.
26. The mobile air conditioner according to claim 25, wherein the mobile air conditioner further comprises:

    A water collecting trough, the water collecting trough is formed by a downward depression of the water receiving pan, and the water flowing out of the water outlet flows into the water collecting trough;

    A drainage port is opened at the bottom of the sump to drain the condensed water in the sump and flow to the outdoor heat exchanger.
27. The mobile air conditioner according to claim 24, wherein:

    The boss member is arranged on the edge area of the water receiving tray,

    The enclosed flanging includes:

    Edge flanging, the edge flanging is arranged on the edge of the water receiving tray and extends upward;

    Inner flanging, the inner flanging is arranged on the upper surface of the water receiving tray, and the inner flanging is connected with the inner flanging to form the enclosed flanging together.
28. The mobile air conditioner according to claim 24, wherein the mobile air conditioner further comprises;

    A fixing piece, the fixing piece is arranged on the upper surface of the drain pan and located in the enclosing flange, and the fixing piece is configured to fix the second capacitor on the boss piece.
29. The mobile air conditioner according to claim 24, wherein the mobile air conditioner further comprises;

    The limiting member, the limiting member is arranged on the upper surface of the water receiving tray or the boss member, and the limiting member abuts against the second capacitor to limit the installation of the second capacitor Moving in the process.
30. The mobile air conditioner of claim 23, wherein the waterproof structure comprises:

    A bulge, the bulge is formed by bulging upward from the water receiving pan;

    A closing plate, the closing plate is connected to the bottom end of the protruding portion, and enclosing the protruding portion to form an accommodating cavity, and the second capacitor is arranged in the accommodating cavity.
31. The mobile air conditioner of claim 30, wherein the waterproof structure comprises:

    A convex column, the convex column is fixed on the enclosure plate and located in the accommodating cavity, and the second capacitor is fixed on the convex column.
32. The mobile air conditioner according to claim 31, wherein the waterproof structure further comprises: a via hole, the via hole being opened on the protruding part and corresponding to the convex column up and down.

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