CN111059636A - Window type air conditioner - Google Patents

Abstract

The invention relates to a window type air conditioner, which comprises a chassis, a shell, an electric control box, a junction box and a wiring disc, wherein the chassis is provided with a base plate and a cover plate; the shell comprises an indoor side shell and an outdoor side shell which are respectively arranged on two sides of the chassis; the electric control box is arranged on the chassis and is positioned in the indoor side shell; the junction box is arranged in the indoor side shell; the wiring disc is arranged on the chassis, a power supply wire slot, a strong current wire slot and a weak current wire slot which are mutually isolated are formed on the wiring disc, a power wire which is electrically connected with the electric control box is arranged in the power supply wire slot, a strong current wire which is electrically connected with the electric control box or the electric control box and the junction box is arranged in the strong current wire slot, and a weak current wire which is electrically connected with the electric control box is arranged in the weak current wire slot. The invention aims to solve the technical problems of disordered arrangement and space occupation of the traditional electric control box, the junction box and the connecting wires.

Description

Window type air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to a window type air conditioner.

Background

At present, window type air conditioners are more and more widely applied due to convenient use and simple installation. Because a plurality of electric appliances are arranged in the air conditioner, an electric control box and a junction box are arranged in the air conditioner so as to be convenient for electrically connecting and controlling the electric appliances. In the conventional technology, various wires are usually provided to electrically connect the electrical control box, the junction box and the electrical devices, so as to ensure the normal operation of the electrical devices. However, the arrangement of the electric control box, the junction box and the connecting wires in the traditional technology is disordered, so that the occupied space is large, the wiring is disordered, and the wiring efficiency is reduced.

Disclosure of Invention

Based on the technical scheme, the invention provides a window type air conditioner, and aims to solve the technical problems that a traditional electric control box, a junction box and connecting wires are disordered in arrangement and occupy large space.

In order to achieve the purpose, the invention provides the following technical scheme:

a window type air conditioner comprising:

a chassis;

the shell comprises an indoor side shell and an outdoor side shell which are respectively arranged on two sides of the chassis;

the electric control box is arranged on the chassis and is positioned in the outdoor shell;

the junction box is arranged in the indoor side shell; and the number of the first and second groups,

the wiring disc is arranged on the chassis; the wiring disc is provided with a power supply wire slot, a strong current wire slot and a weak current wire slot which are mutually isolated, a power wire which is electrically connected with the electric control box is arranged in the power supply wire slot, a strong current wire which is electrically connected with the electric control box or the electric control box and the junction box is arranged in the strong current wire slot, and a weak current wire which is electrically connected with the electric control box is arranged in the weak current wire slot.

Optionally, a plurality of slot side walls are arranged on the wiring disc in a protruding mode, the power supply slot, the strong current slot and the weak current slot are formed between two adjacent slot side walls respectively, and a wire clamping buckle is arranged on each slot side wall in a protruding mode.

Optionally, an indoor air duct shell is arranged on the chassis, the indoor air duct shell is located in the indoor side shell, and the wiring disc is arranged between the indoor air duct shell and the electronic control box.

Optionally, the power line slot and the weak line slot are respectively arranged at two sides of the wiring disc, and the strong line slot is arranged close to the weak line slot;

the power supply wire slot extends from one side of the indoor air duct shell to the electric control box in a bending way, and the strong current wire slot and the weak current wire slot extend from the other side of the indoor air duct shell to the electric control box in a bending way.

Optionally, the bottom of the electronic control box is provided with a wire inlet and outlet groove, the wire inlet and outlet groove is arranged corresponding to the middle position of the wiring disc, and the power supply wire groove, the strong current wire groove and the weak current wire groove are all close to the wire inlet and outlet groove.

Optionally, the electronic control box comprises a box base arranged on the chassis, and a box body arranged on the box base;

the bottom of the box body is provided with a plurality of wire inlet and outlet grooves in an adjacent mode, and the power supply wire groove, the strong current wire groove and the weak current wire groove respectively correspond to the plurality of wire inlet and outlet grooves.

Optionally, a power supply auxiliary line slot is formed between the side of the indoor air duct shell and the indoor side shell, the power supply auxiliary line slot is communicated with the power supply line slot, and the power supply line extends into the power supply auxiliary line slot, extends into the power supply line slot and then extends into the electronic control box from the outside of the indoor side shell.

Optionally, the strong current slots include a motor strong current slot and a compressor strong current slot, which are respectively disposed on the wiring disc, wherein a motor strong current wire is disposed in the motor strong current slot, and a compressor strong current wire is disposed in the compressor strong current slot;

the chassis is provided with a compressor positioned in the outdoor side shell, and the compressor strong electric wire is led out from the electric control box and led to and electrically connected with the compressor along the compressor strong electric wire groove;

an outdoor motor is arranged in the outdoor side shell, an indoor motor is arranged in the indoor side shell, and two motor strong electric wires are led out from the electric control box, run to the junction box along the motor strong electric wire grooves and are led out from the junction box to be respectively and electrically connected with the outdoor motor and the indoor motor.

Optionally, the motor power line comprises a first motor power line and a second motor power line both disposed in the motor power line slot;

the first motor strong wire comprises a first motor incoming wire and a first motor return wire, the first motor incoming wire is led out from the electric control box and led into the junction box along the motor strong wire groove, and the first motor return wire is led out from the junction box and electrically connected with the indoor motor;

the second motor strong wire comprises a second motor incoming wire and a second motor return wire, the second motor incoming wire is led out of the electric control box and led into the junction box along the motor strong wire groove, and the second motor return wire is led out of the junction box and extends towards the outdoor motor to be electrically connected with the outdoor motor.

Optionally, the indoor motor and the junction box are both disposed on the indoor air duct shell, the junction box is located below the indoor motor, and the first motor return wire is arranged along the outer wall of the indoor air duct shell.

Optionally, a wire inlet and outlet is formed in the bottom of the junction box, the first motor inlet wire and the second motor inlet wire enter the junction box through the wire inlet and outlet, and the first motor return wire and the second motor return wire penetrate out of the junction box through the wire inlet and outlet;

the junction box is provided with a first wiring terminal and a second wiring terminal, the first motor incoming line and the first motor return line are electrically connected through the first wiring terminal, and the second motor incoming line and the second motor return line are electrically connected through the second wiring terminal.

Optionally, the compressors are arranged beside the electric control box side by side, and the compressor strong current slot is bent and extended from the electric control box to the indoor air duct shell direction and then bent and extended to the compressor direction.

Optionally, the compressor power electric wire groove is provided as a U-shaped groove.

Optionally, the weak current wire groove is bent and extended from the electronic control box to the side of the indoor air duct shell on the wiring disc, the weak current wires are indoor weak current wires and outdoor weak current wires led out from the electronic control box, and the indoor weak current wires and the outdoor weak current wires extend to the side of the indoor air duct shell along the weak current wire groove and are led to the indoor side shell and the outdoor side shell respectively.

Optionally, the weak current slot includes a first weak current slot section extending from the electronic control box to the middle of the indoor air duct shell, and a second weak current slot section extending from the middle of the indoor air duct shell to the side of the indoor air duct shell in a bending manner, and the first weak current slot section is communicated with the second weak current slot section;

the compressor strong current slot comprises a first compressor slot section extending from the electric control box to the middle part of the indoor air duct shell and a second compressor slot section extending from the middle part of the indoor air duct shell to the compressor in a bending way, the first compressor slot section is communicated with the second compressor slot section, and the first compressor slot section is superposed with the first weak current slot section.

Optionally, a separating groove is formed in the housing, and the separating groove is used for allowing a shielding piece located at a window of a wall body to extend into the separating groove, and the separating groove separates the housing into the indoor side housing and the outdoor side housing;

the indoor side cavity is formed inside the indoor side shell, the outdoor side cavity is formed inside the outdoor side shell, and the wiring disc extends into the outdoor side cavity from the indoor side cavity.

Optionally, a seal movably mounted at the separation groove is included for switching between a storage state and an operating state; wherein:

in the accommodated state, the seal is accommodated in the separation groove;

in the working state, the sealing element extends out from the side direction of the separation groove and is used for being propped against the shielding element and/or the inner wall of the wall window.

According to the technical scheme provided by the invention, the wiring disc is arranged on the chassis, the power supply wire slot, the strong current wire slot and the weak current wire slot are respectively arranged on the wiring disc, and the power supply wire, the strong current wire and the weak current wire are correspondingly arranged, so that various connecting wires are separately arranged. Therefore, the electric control box, the junction box and the connecting wires can be orderly and tidily arranged on the chassis, so that the mutual influence interference among various connecting wires can be reduced, the occupied space can be reduced, the wiring can be tidy and simple, and the wiring efficiency can be improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic perspective view of a window type air conditioner (with a sealing member in a storage state) according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a window type air conditioner (with the sealing member in operation) according to an embodiment of the present invention;

fig. 3 is a schematic longitudinal sectional view of a window type air conditioner according to an embodiment of the present invention;

FIG. 4 is a schematic perspective view of a window air conditioner (with the housing removed) according to an embodiment of the present invention;

FIG. 5 is a schematic perspective view of a window type air conditioner (with the housing removed and the terminal box installed) according to an embodiment of the present invention;

FIG. 6 is a schematic perspective view of a window air conditioner (with the outer casing and the indoor air duct casing removed) according to an embodiment of the present invention;

FIG. 7 is a schematic top view of a window air conditioner with the housing removed according to an embodiment of the present invention;

fig. 8 is a cross-sectional view schematically illustrating a window type air conditioner according to an embodiment of the present invention;

fig. 9 is a schematic perspective view of an electric control box of the window type air conditioner according to the embodiment of the present invention;

fig. 10 is a schematic perspective view of the window type air conditioner electrical control box according to the embodiment of the present invention when opened.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				10	Chassis	20	Indoor side casing
22	Cross flow wind wheel	24	Display box
				25	Indoor heat exchanger	26	Indoor motor
30	Outdoor side casing	32	Electric control box
				34	Outdoor motor	35	Compressor with a compressor housing having a plurality of compressor blades
36	Axial flow fan blade	38	Outdoor heat exchanger
				40	Sealing element	50	Separation groove
60	Indoor air duct shell	100	Wiring disc
				110	Power supply wire slot	112	Power auxiliary wire slot
114	Power line	120	Strong current wire slot of motor
				122	Motor power line	130	Strong current wire casing of compressor
132	Strong wire of compressor	140	Weak current wire slot
				142	Weak current electric wire	200	Terminal box
322	Box body	324	Box foundation
				326	Wire inlet and outlet groove

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, back, top and bottom … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 to 2, the present invention provides a window type air conditioner. The window type air conditioner may include a base plate 10, and a housing covering the base plate 10. The housing is provided with a separating groove 50 for the shielding member at the window of the wall to extend into, and the separating groove 50 can separate the housing into the indoor side housing 20 and the outdoor side housing 30. An indoor side cavity is formed inside the indoor side housing 20, and an outdoor side cavity is formed inside the outdoor side housing 30. And, be equipped with indoor subassembly in the indoor side cavity, be equipped with outdoor subassembly in the outdoor side cavity. Also, the window type air conditioner may include a sealing member 40 movably installed at the separation groove 50, the sealing member 40 being used to switch between a storage state and an operation state. Wherein: in the accommodated state, the seal 40 is accommodated in the partition groove 50 (as shown in fig. 1); in the operative condition, the sealing member 40 projects laterally from the channel 50 beyond the channel 50 (as shown in figure 2) and is adapted to be held against the screen and/or the inner wall of the wall window. The shielding member may be a window sash, a curtain, or a louver.

In addition, as shown in fig. 3 to 4, the outdoor assembly may include an electric control box 32, an outdoor motor 34, a compressor 35, an axial-flow fan 36, an outdoor heat exchanger 38, and the like, which are disposed in the outdoor-side cavity; and the indoor assembly may include an indoor duct assembly disposed in the indoor-side cavity, a display box 24 (which may be mounted on the indoor-side housing 20), an indoor heat exchanger 25, and so on. Also, the indoor air duct assembly may be installed on the base plate 10 and located in the indoor side case 20 of the housing. Furthermore, the indoor air duct assembly may include an indoor air duct case 60 installed on the base chassis 10 and located inside the casing, an indoor motor 26 provided on the indoor air duct case 60, and a cross flow wind wheel 22 provided inside the indoor air duct case 60 and connected to the indoor motor.

Also, as shown in fig. 5 to 8, the housing may include an indoor side housing 20 and an outdoor side housing 30 respectively provided at both sides of the base pan 10. The electrical control box 32 may be installed on the chassis 10 and located in the outdoor housing 30, and the junction box 200 is disposed in the indoor housing 20. Further, the chassis 10 is provided with a wiring tray 100. Furthermore, the wiring tray 100 may have a power line slot 110, a strong current slot (120, 130) and a weak current slot 140, which are isolated from each other, wherein the power line slot 110 has a power line 114 electrically connected to the electronic control box 32, the strong current slot has a strong current wire electrically connected to the electronic control box 32 or the electronic control box 32 and the junction box 200, and the weak current slot 140 has a weak current wire 142 electrically connected to the electronic control box 32. By providing the wiring tray 100 on the chassis 10, and providing the power line slot 110, the strong current slot (120, 130) and the weak current slot 140 on the wiring tray 100, respectively, and correspondingly arranging the power line 114, the strong current wire and the weak current wire 142, various connection wires are separately arranged. Therefore, the electric control box 32, the junction box 200 and the connecting wires can be orderly and orderly arranged on the chassis 10, so that the mutual influence interference among various connecting wires can be reduced, the occupied space can be reduced, the wiring can be tidy and simple, and the wiring efficiency can be improved.

Furthermore, the wiring tray 100 may be separately provided and detachably connected to the chassis 10, so that the wiring tray 100 may be easily manufactured. In addition, the wiring tray 100 and the chassis 10 may be integrated, and thus, they are firm and reliable. Moreover, the wiring disc 100 can be located between the indoor side cavity and the outdoor side cavity, namely, the wiring disc 100 can be arranged on the inner side of the separation groove between the indoor side cavity and the outdoor side cavity, so that the connecting wires can be conveniently arranged between the indoor side and the outdoor side of the air conditioner, the electric connection with electric appliances on two sides is convenient, and the wiring length can be shortened. In addition, the above-mentioned junction box 200 may be disposed on the inner wall of the indoor side housing 20, on the chassis 10 in the indoor side housing 20, or on the outer wall of the indoor duct housing 60.

Furthermore, the wiring tray 100 may have a plurality of slot sidewalls, the power slot 110, the strong power slots (120, 130), and the weak power slot 140 are respectively formed between two adjacent slot sidewalls, and the slot sidewalls have a plurality of clip fasteners. Namely, the wiring tray 100 can be provided with the side wall of the wiring slot to clamp and form various wiring slots (a power supply wiring slot 110, strong current wiring slots (120, 130) and weak current wiring slots 140), namely, the wiring slots can be arranged on the wiring tray 100 in a protruding manner; in addition, a wiring groove may be formed in the wiring board 100. Moreover, other protruding structures on the wiring tray 100 (or the chassis 10) and the side wall of the wiring slot can be used to form the wiring slot in a clamping manner; further, gaps between the protruding structures on the routing disc 100 (or chassis 10) and additional protruding structures may also be utilized to form routing channels; in addition, the above conditions can be combined to form a composite form of cabling channel. The connecting wires (power line 114, strong current wire, and weak current wire 142) are disposed in the wiring slots (power line slot 110, strong current slot (120, 130), and weak current slot 140). And the side wall of the wiring groove can be provided with a protruding wire clip for clipping the connecting wire in the wiring groove, so that the connecting wire is not easy to be separated from the wiring groove, the installation efficiency of the connecting wire can be improved, and the installation of the connecting wire is stable. In addition, the wiring slots are also correspondingly divided into a power supply slot, a strong current slot and a weak current slot according to the classification of the connecting wires so as to separate various connecting wires, so that the wiring is convenient, and the EMC (electromagnetic compatibility) test of the whole machine is facilitated.

Furthermore, an indoor air duct casing 60 is provided on the chassis 10, the indoor air duct casing 60 is located in the indoor side housing 20, and the wiring board 100 is provided between the indoor air duct casing 60 and the electronic control box 32. The wiring plate 100 can be disposed at the middle position of the chassis 10, so as to facilitate wiring to the electrical devices in all directions. In addition, the wiring tray can be positioned through the indoor air duct casing 60 and the electronic control box 32.

Moreover, the power line groove 110 and the weak line groove 140 may be respectively disposed at both sides of the wiring tray 100, and the strong line grooves (120, 130) are disposed adjacent to the weak line groove 140. Therefore, the power line 114 and the strong electric wire can be respectively arranged at two sides of the wiring disc 100, so that mutual influence between the power line 114 and the strong electric wire is avoided, arrangement of related electric devices is facilitated, arrangement of the power line 114 and the strong electric wire is short and ordered, and cost can be reduced. Moreover, the arrangement of the relevant electric devices is also facilitated by arranging the weak current wires 142 close to the strong current wires, and the overall wiring can be orderly. Further, the power line slot 110 may be bent from one side of the indoor air duct casing 60 to the electronic control box 32, and the strong current slot (120, 130) and the weak current slot 140 are both bent from the other side of the indoor air duct casing 60 to the electronic control box 32. The power cord 110 may be disposed on one side of the wiring tray 100 such that the power cord 110 may enter the indoor side housing 20 from the side of the indoor air duct case 60 and extend along the power cord slot 110 into the electrical control box 32; it is also possible to arrange the strong and weak electric wires 142 on the other side of the wiring tray 100 to be separately provided from each other.

As shown in fig. 9 to 10, an inlet/outlet line slot 326 is formed in the bottom of the electrical control box 32, the inlet/outlet line slot 326 is disposed corresponding to the middle position of the wiring board 100, and the power line slot 110, the strong current slots (120, 130), and the weak current slot 140 are all closed to the inlet/outlet line slot. Namely, the various connecting wires (the power wire 110, the strong current wires (122, 132) and the weak current wire 142) can be gathered together and led into the electric control box 32 through the wire inlet and outlet slot arranged at the bottom of the electric control box 32, so that the centralized wiring is facilitated. Furthermore, the electrical control box 32 may include a box base 324 disposed on the chassis 10, and a box body 322 disposed on the box base 324. Through setting up box base 324, can set up the box body 324 of automatically controlled box 32 in higher position department to conveniently set up in box body 322 bottom and go out the wire casing 326, conveniently walk the line wiring, still make the water liquid on the chassis 10 be difficult for getting into in the automatically controlled box 32. Moreover, the wire inlet/outlet slot 326 is disposed at the bottom of the box 322, which facilitates the wiring on the chassis 10 and the wiring board 100, and also reduces the wiring length and saves the cost. Furthermore, a plurality of inlet and outlet lines 326 are disposed near the bottom of the box 10, and the power line slot 110, the strong current slot (120, 130) and the weak current slot 140 correspond to the plurality of inlet and outlet lines 326, respectively. By arranging the plurality of wire inlet and outlet grooves 326 on the box body 322 of the electric control box 32, the connecting wires such as the power wire 114, the strong electric wire, the weak electric wire 142 and the like can be respectively led in and led out through the different wire inlet and outlet grooves 326, so that the connecting wires are separated, and the wiring is more clear, concise, orderly and orderly. Moreover, the wire inlet/outlet slots 326 can correspond to the wire routing slots (the power wire slot 110, the strong current wire slots (120, 130) and the weak current wire slot 140), so that the wire routing is convenient.

In addition, a power supply auxiliary line slot 112 may be formed between the side of the indoor air duct casing 60 and the indoor casing 20, the power supply auxiliary line slot 112 is communicated with the power supply line slot 110, and a power supply line 114 extends from the indoor casing 20 to the outside into the power supply auxiliary line slot 112, the inside of the power supply line slot 110, and then into the electronic control box 32. Thus, the gap (i.e. the power auxiliary line slot 112) between the side of the indoor air duct casing 60 and the side of the indoor side casing 20 can be utilized, and the line incoming segment of the power line 114 can be arranged on the chassis 10 at the gap, so that the power line 114 enters the indoor side casing 20 from the gap between the side of the indoor air duct casing 60 and the indoor side casing 20 from the outside of the air conditioner, and is led into the power line slot 110 on the wiring disc 100 arranged between the indoor air duct casing 60 and the electric control box 32, and is led to the electric control box 32 through the power line slot 110, so as to be electrically connected with the electric control box 32, thereby conveniently providing power supply for various electric appliances.

In addition, the power line slot may include a motor power line slot 120 and a compressor power line slot 130 respectively disposed on the wiring tray 100, wherein a motor power line 122 is disposed in the motor power line slot 120, and a compressor power line 132 is disposed in the compressor power line slot 130. The chassis 10 is provided with a compressor 35 in the outdoor side housing 30, and a compressor power line 132 is led out from the electronic control box 32, led along the compressor power line slot 130, and electrically connected to the compressor 35. Furthermore, an outdoor motor 34 is disposed in the outdoor side housing 30, an indoor motor 26 is disposed in the indoor side housing 20, and two motor power wires 122 are led out from the electronic control box 32, run along the motor power wire slot 120 to the junction box 200, and are led out from the junction box 200 to be electrically connected with the outdoor motor 34 and the indoor motor 26 respectively. That is, the strong current slots are respectively set as a motor strong current slot 120 and a compressor strong current slot 130, which can be respectively used for laying a motor strong current wire 122 and a compressor strong current wire 132, the motor strong current wire 122 can electrically connect the electric control box 32, the junction box 200, the indoor motor 26 and the outdoor motor 34, and the compressor strong current wire 132 can electrically connect the electric control box 32 and the compressor 35. Therefore, the connecting wires of the two motors (the indoor motor 26 and the outdoor motor 34) and the compressor 35 can be separately arranged, the wires can be arranged according to the arrangement conditions of the motors and the compressor, the wires can be more orderly routed, and the length of the connecting wires can be appropriately shortened.

Also, the motor power line groove 120 may include a first power line groove section provided on the wiring tray 100 and extended to the rear side of the indoor duct case 60 by the electronic control box 32, and a second power line groove section extended from the first power line groove section to the junction box 200 along the rear side of the indoor duct case 60. Namely, the motor power line slot 120 extends from the electronic control box 32 to the indoor air duct casing 60 and then extends to the junction box 200 along the bottom side of the indoor air duct casing 60, so that the motor power line 122 mainly extends along the bottom side of the indoor air duct casing 60, the occupied space is small, and the wiring is short.

Further, the motor power wires 122 may include a first motor power wire and a second motor power wire that are disposed in the motor power wire slot 120 at the same time. That is, the first motor power line and the second motor power line can be simultaneously disposed in the motor power line slot 120, and the wiring is concentrated and simple and convenient. Moreover, the first motor power line may include a first motor incoming line and a first motor return line, the first motor incoming line is led out from the electronic control box 32 and led into the junction box 200 along the motor power line slot 120, and the first motor return line is led out from the junction box 200 and electrically connected to the indoor motor 26; also, the second motor power line may include a second motor incoming line drawn from the electronic control box 32 and introduced into the junction box 200 along the motor power line slot 120, and a second motor return line drawn from the junction box 200 and extended toward the outdoor motor 34 to electrically connect the outdoor motor 34.

Moreover, the indoor motor 26 and the junction box 200 can be both disposed on the indoor air duct casing 60, and the junction box 200 is disposed below the indoor motor 26, and the first motor loop is disposed along the outer wall of the indoor air duct casing 60. By arranging the junction box 200 on the side wall of the indoor air duct casing 60, the junction box 200 and the power line 110 can be respectively arranged on two sides of the indoor air duct casing 60, which facilitates the separation of the wiring. Further, by disposing the terminal block 200 on the indoor air duct case 60 and below the indoor motor 26, the distance from the first motor return wire to the indoor motor 26 from the terminal block 200 is made shorter, reducing the length of the connection wire. In addition, after the first motor return wire and the second motor return wire are led out from the junction box 200, the first motor return wire can be directly arranged along the indoor air duct shell 60 because the junction box 200 is directly arranged on the indoor air duct shell 60; and the second motor return line is directed to the outdoor motor 34 in the outdoor housing 30, and is routed back along the motor power line slot 120 and through the control box 32 to be electrically connected to the outdoor motor 34.

Further, the bottom of the junction box 200 is provided with a wire inlet and outlet, the first motor wire inlet and the second motor wire inlet enter the junction box 200 through the wire inlet and outlet, and the first motor return wire and the second motor return wire penetrate out of the junction box 200 through the wire inlet and outlet. The chassis of the junction box 200 is provided with the wire inlet and outlet, so that two motor inlet wires can be smoothly led into the junction box 200 after passing through the motor strong current slots 120 on the wiring disc 100 arranged on the chassis 10, and in addition, two motor return wires can be smoothly led out of the junction box 200 to be respectively electrically connected with two motors, and the length of a connecting wire can be shortened. In addition, the junction box 200 can be suspended above the chassis 10, so that the bottom of the junction box 200 has enough wire outlet gaps, wiring at the bottom of the junction box 200 is convenient, and water liquid can be prevented from entering the junction box 200. In addition, the first motor inlet wire and the second motor inlet wire may be arranged in the motor power line slot 120 side by side.

Moreover, the junction box 200 may be provided with a first connection terminal and a second connection terminal, the first motor incoming line and the first motor return line are electrically connected through the first connection terminal, and the second motor incoming line and the second motor return line are electrically connected through the second connection terminal. Through set up binding post in terminal box 200, can carry out the electricity with motor inlet wire and motor return wire and connect, conveniently lay wire.

In addition, the compressor 35 may be arranged beside the electronic control box 32, and the compressor strong electric wire slot 130 may be bent and extended from the electronic control box 32 to the indoor air duct casing 60 and then bent and extended to the compressor 35. By arranging the compressor 35 and the electronic control box 32 side by side, the space of the outdoor side housing 30 can be fully utilized, and the distance between the electronic control box 32 and the compressor 35 can be shortened to reduce the length of the connecting wire. Also, since the compressor 35 and the electronic control box 32 are arranged relatively closely, it is necessary to provide the compressor power line 132 connecting the compressor 35 and the electronic control box 32 in a bent state, so that the bent compressor power line groove 130 is provided on the wiring tray 100 to facilitate wiring. Moreover, in the present embodiment, the compressor power line slot 130 may be a U-shaped slot, so that the compressor power lines 132 may be correspondingly arranged in a U-shape, which facilitates the routing of the compressor power lines 132.

In addition, the weak current line groove 140 is bent and extended from the electrical control box 32 to the side of the indoor air duct casing 60 on the wiring board 100, and the weak current wire 142 is formed by the indoor side weak current wire and the outdoor side weak current wire led out from the electrical control box 32, and both the indoor side weak current wire and the outdoor side weak current wire extend to the side of the indoor air duct casing 60 along the weak current line groove 140 and are led to the indoor side casing 20 and the outdoor side casing 30, respectively. The weak current slots 140 and the corresponding weak current wires 142 are arranged on one sides of the motor strong current slot 120 and the compressor strong current slot 130 and are separately arranged from the power slot 110, so that the motor strong current wires 122, the compressor strong current wires 132 and the weak current wires 142 can be intensively arranged, and the wiring and routing are convenient; moreover, motor power line 122 and compressor power line 132 and low current line 142 are isolated from each other and have less impact on each other. Further, the weak current electric wire 142 may be divided into an indoor side weak current electric wire and an outdoor side weak current electric wire according to different applications to be electrically connected to an indoor side electric device (e.g., an indoor side detection sensor) and an outdoor side electric device (e.g., an outdoor side detection sensor), respectively. In addition, indoor side weak current electric wires and outdoor side weak current electric wires can be arranged in the weak current wire groove 140 at the same time, concentrated wiring is carried out, and the wiring is convenient and simple. When the indoor side weak current electric wire and the outdoor side weak current electric wire pass through the weak current wire groove 140 and reach the edge position of the chassis 10, the indoor side weak current electric wire and the outdoor side weak current electric wire are respectively led to the indoor side electric device and the outdoor side electric device. In addition, a plurality of indoor side weak current wires and outdoor side weak current wires can be arranged so as to be respectively and electrically connected with a plurality of detection sensors or other electric devices.

Further, the weak current slot 140 may include a first weak current slot section extending from the electronic control box 32 to the middle of the indoor air duct casing 60, and a second weak current slot section extending from the middle of the indoor air duct casing 60 to the side of the indoor air duct casing 60, where the first weak current slot section is communicated with the second weak current slot section. Furthermore, the compressor strong current slot 130 may include a first compressor slot section extending from the electronic control box 32 to the middle of the indoor air duct casing 60, and a second compressor slot section extending from the middle of the indoor air duct casing 60 to the compressor 35, where the first compressor slot section is communicated with the second compressor slot section, and the first compressor slot section coincides with the first weak current slot section. Namely, the weak current slot 140 and the compressor strong current slot 130 can be partially overlapped, so that the weak current wires 142 and the compressor strong current wires 132 can be arranged close to each other, and concentrated wiring is facilitated.

In addition, in this embodiment, the bottom of the electrical control box 32 may be provided with four wire inlet and outlet slots 326, wherein one wire inlet and outlet slot 326 is used for leading in the power cord 114, and the wire inlet and outlet slot 326 may also lead out the compressor power cord 132 at the same time; one of the inlet and outlet slots 326 is used for leading out indoor weak current wires; one of the wire inlet and outlet slots 326 is used for leading out weak current wires outside the chamber; one of the inlet and outlet slots 326 is used to exit motor power cord 122. Therefore, various connecting wires can be orderly and orderly led into the leading-out electric control box. Further, four inlet and outlet slots 326 are secured together and located in the middle of the chassis 10. By placing the four inlet and outlet slots 326 close together, the routing can be centralized. Also, by locating the access wire slot 326 in a central location on the chassis 10, the distance from the connecting wires to the electrical devices elsewhere can be made shorter.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (17)

1. A window type air conditioner, comprising:

a chassis;

the shell comprises an indoor side shell and an outdoor side shell which are respectively arranged on two sides of the chassis;

the electric control box is arranged on the chassis and is positioned in the outdoor shell;

the junction box is arranged in the indoor side shell; and the number of the first and second groups,

the wiring disc is arranged on the chassis; the wiring disc is provided with a power supply wire slot, a strong current wire slot and a weak current wire slot which are mutually isolated, a power wire which is electrically connected with the electric control box is arranged in the power supply wire slot, a strong current wire which is electrically connected with the electric control box or the electric control box and the junction box is arranged in the strong current wire slot, and a weak current wire which is electrically connected with the electric control box is arranged in the weak current wire slot.

2. The window type air conditioner as claimed in claim 1, wherein said wiring tray has a plurality of side walls, said power supply wire slot, said strong current wire slot and said weak current wire slot are formed between two adjacent side walls, and said side walls have a snap fastener.

3. The window air conditioner as claimed in claim 1, wherein an indoor air duct casing is provided on the base plate, the indoor air duct casing is located in the indoor side casing, and the wiring tray is provided between the indoor air duct casing and the electric control box.

4. The window type air conditioner as claimed in claim 3, wherein the power line slot and the weak line slot are respectively provided at both sides of the wiring tray, and the strong line slot is disposed adjacent to the weak line slot;

the power supply wire slot extends from one side of the indoor air duct shell to the electric control box in a bending way, and the strong current wire slot and the weak current wire slot extend from the other side of the indoor air duct shell to the electric control box in a bending way.

5. The window type air conditioner as claimed in claim 3, wherein the bottom of the electrical control box is provided with an inlet and outlet slot, the inlet and outlet slot is arranged corresponding to the middle position of the wiring disc, and the power supply wire slot, the strong current wire slot and the weak current wire slot are all close to the inlet and outlet slot.

6. The window air conditioner as recited in claim 5, wherein said electrical control box comprises a box base disposed on said base pan, and a box body disposed on said box base;

the bottom of the box body is provided with a plurality of wire inlet and outlet grooves in an adjacent mode, and the power supply wire groove, the strong current wire groove and the weak current wire groove respectively correspond to the plurality of wire inlet and outlet grooves.

7. The window air conditioner as set forth in claim 4, wherein a power auxiliary slot is formed between said indoor air duct housing side and said indoor side housing, said power auxiliary slot being in communication with said power slot, said power cord extending from outside said indoor side housing into said power auxiliary slot, into said power slot and into said electrical control box.

8. The window air conditioner as set forth in claim 3, wherein said strong current slots include a motor strong current slot and a compressor strong current slot respectively disposed on said wiring tray, wherein a motor strong current is disposed in said motor strong current slot, and wherein a compressor strong current is disposed in said compressor strong current slot;

the chassis is provided with a compressor positioned in the outdoor side shell, and the compressor strong electric wire is led out from the electric control box and led to and electrically connected with the compressor along the compressor strong electric wire groove;

an outdoor motor is arranged in the outdoor side shell, an indoor motor is arranged in the indoor side shell, and two motor strong electric wires are led out from the electric control box, run to the junction box along the motor strong electric wire grooves and are led out from the junction box to be respectively and electrically connected with the outdoor motor and the indoor motor.

9. The window air conditioner of claim 8, wherein the motor power lines include a first motor power line and a second motor power line simultaneously disposed in the motor power line slot;

the first motor strong wire comprises a first motor incoming wire and a first motor return wire, the first motor incoming wire is led out from the electric control box and led into the junction box along the motor strong wire groove, and the first motor return wire is led out from the junction box and electrically connected with the indoor motor;

the second motor strong wire comprises a second motor incoming wire and a second motor return wire, the second motor incoming wire is led out of the electric control box and led into the junction box along the motor strong wire groove, and the second motor return wire is led out of the junction box and extends towards the outdoor motor to be electrically connected with the outdoor motor.

10. The window air conditioner as recited in claim 9 wherein said indoor motor and said terminal box are both disposed on said indoor air duct housing, and said terminal box is located below said indoor motor, said first motor return wire being disposed along an outer wall of said indoor air duct housing.

11. The window air conditioner as recited in claim 10, wherein a wire inlet and outlet is provided at a bottom of the junction box, the first motor wire inlet and the second motor wire inlet enter the junction box through the wire inlet and outlet, and the first motor wire return and the second motor wire return pass through the wire inlet and outlet and out of the junction box;

the junction box is provided with a first wiring terminal and a second wiring terminal, the first motor incoming line and the first motor return line are electrically connected through the first wiring terminal, and the second motor incoming line and the second motor return line are electrically connected through the second wiring terminal.

12. The window type air conditioner as recited in claim 8, wherein said compressor is disposed beside said electrical control box, and said compressor power line slot is bent from said electrical control box to said indoor air duct shell and then bent to said compressor.

13. The window air conditioner as set forth in claim 12, wherein said compressor power electric slots are provided as U-shaped slots.

14. The window air conditioner as set forth in claim 4, wherein said weak-current duct is bent from said electric control box to a side of said indoor air duct casing at said wiring tray, and said weak-current electric wires are led from indoor and outdoor weak-current electric wires led out from said electric control box, said indoor and outdoor weak-current electric wires each being extended to a side of said indoor air duct casing along said weak-current duct and led to said indoor and outdoor casings, respectively.

15. The window air conditioner as set forth in claim 14, wherein said weak current slot includes a first weak current slot section extending from said control box to a middle portion of said indoor air duct housing, and a second weak current slot section extending from said middle portion of said indoor air duct housing to a side of said indoor air duct housing, said first weak current slot section communicating with said second weak current slot section;

the compressor strong current slot comprises a first compressor slot section extending from the electric control box to the middle part of the indoor air duct shell and a second compressor slot section extending from the middle part of the indoor air duct shell to the compressor in a bending way, the first compressor slot section is communicated with the second compressor slot section, and the first compressor slot section is superposed with the first weak current slot section.

16. The window type air conditioner as claimed in claim 1, wherein said housing is provided with a partition groove for a screen member positioned at a window of a wall body to be inserted therein, said partition groove partitioning said housing into said indoor side housing and said outdoor side housing;

the indoor side shell is internally provided with an indoor side cavity, the outdoor side shell is internally provided with an outdoor side cavity, and the wiring disc is positioned between the indoor side cavity and the outdoor side cavity.

17. The window air conditioner as set forth in claim 16, including a seal movably mounted at said separation groove for switching between a stowed condition and an operative condition; wherein:

in the accommodated state, the seal is accommodated in the separation groove;

in the working state, the sealing element extends out from the side direction of the separation groove and is used for being propped against the shielding element and/or the inner wall of the wall window.

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