CN216048069U - Air treatment equipment - Google Patents

Abstract

The embodiment of the application provides an air treatment device, belongs to the air treatment field, including heat transfer case, separator and indoor fan, the separator is located the heat transfer incasement, and the separator encloses with the heat transfer case and establishes into indoor region and outdoor region, and the separator is located between indoor region and the outdoor region. The indoor fan comprises a fan shell located in an indoor area and an indoor wind wheel installed in the fan shell, and the fan shell and the partition are of an integrated structure. The inside partition by the separator of heat transfer case is indoor region and outdoor region, because separator and fan shell are the integral type structure for the separator has integrated to the fan shell, and the separator depends on the fan shell no longer is an independent spare part, and the separator can be along with the fan shell dismouting together as a whole, therefore has reduced the quantity of the spare part that needs the dismouting, makes air treatment equipment simplify.

Description

Air treatment equipment

Technical Field

The application relates to the field of air treatment, in particular to air treatment equipment.

Background

In the related art, the air treatment equipment has the problem that the number of parts needing to be assembled and disassembled is large.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is desirable to provide an air treatment device to reduce the number of parts that need to be disassembled.

To achieve the above object, an aspect of the embodiments of the present application provides an air treatment apparatus, including:

a heat exchange box;

a partition positioned within the heat exchange box, the partition enclosing with the heat exchange box an indoor region and an outdoor region, the partition positioned between the indoor region and the outdoor region; and

indoor fan, including being located indoor region's fan shell with install in indoor wind wheel in the fan shell, the fan shell with the separator is the integral type structure.

In one embodiment, the divider is formed with a first routing channel between the indoor area and the outdoor area.

In one embodiment, a side wall of a side of the first wiring duct facing the indoor area is a first side wall, a side wall of the first wiring duct facing the outdoor area is a second side wall, and at least one of the first side wall and the second side wall is configured to be sealed with the heat exchange box.

In one embodiment, the air treatment device is formed with a second cabling channel formed at least in part in the divider; the first wiring groove is used for containing alternating current wires, and the second wiring groove is used for containing direct current wires.

In one embodiment, the indoor fan further comprises a first direct current motor for driving the indoor wind wheel to rotate, the first direct current motor is located on one side, away from the first wiring groove, of the indoor wind wheel along the axial direction of the indoor wind wheel, and the second wiring groove is located at one end, away from the first wiring groove, of the separator; the air treatment equipment further comprises an outdoor fan located in the outdoor area, the outdoor fan comprises an outdoor wind wheel and a second direct current motor driving the outdoor wind wheel to rotate, and a power line of the second direct current motor penetrates through the second wiring groove.

In one embodiment, the partition has a sealing surface set abutting the heat exchange box, the sealing surface set being located at one end of the partition.

In one embodiment, the sealing surface group includes a plurality of first sealing surfaces and a plurality of second sealing surfaces, the first sealing surfaces and the second sealing surfaces are arranged in a crossing manner, a direction in which the plurality of first sealing surfaces are arranged at intervals is a first direction, a direction in which the plurality of second sealing surfaces are arranged at intervals is a second direction, and the first direction and the second direction are arranged in a crossing manner.

In one embodiment, the air treatment device further comprises:

a mounting seat connected to a side of the partition facing the outdoor area;

the first stop piece is clamped with the mounting seat;

the capacitor is positioned in the outdoor area, one end of the capacitor is abutted against the first stop piece, and the first stop piece is sleeved on the capacitor; and

and a second stopper connected to a side of the separator facing the outdoor area, the second stopper being located at a side of the mount base facing away from the first stopper, the second stopper abutting against the other end of the capacitor.

In an embodiment, the one end of first stopper spare is formed with elasticity joint portion, elasticity joint portion has the bayonet socket, first stopper spare deviates from the one end of elasticity joint portion with the condenser butt, the mount pad is formed with mounting hole and boss, the boss is located the mount pad is kept away from one side of mounting hole, the boss is used for the card to go into the bayonet socket so that first stopper spare with the mount pad joint, the condenser is worn to locate the mounting hole.

In one embodiment, the heat exchange box comprises:

the separator is positioned in the main box, and the main box is provided with an access hole; and

the access panel, cover in the access hole, the access panel with the main tank is connected, the access panel main tank and the separator encloses and establishes outdoor region, the separator with the main tank encloses and establishes indoor region.

In one embodiment, the air treatment equipment is still including connecting at the outside automatically controlled box of main tank, overhaul the apron with the main tank encloses into the through wires hole, automatically controlled box is used for being connected with the one end of electric wire, the through wires hole is used for dodging the electric wire so that the other end of electric wire gets into in the main tank through the through wires hole.

In one embodiment, a pre-fixing portion is formed on the outer side of the maintenance cover plate, and the pre-fixing portion is used for pre-fixing an electric wire penetrating through the wire penetrating hole.

In one embodiment, the pre-fixing part includes a winding post for winding the electric wire and a wire clip having a catching groove for catching the electric wire.

In one embodiment, the main tank includes:

the separator is positioned in the box body, and the access hole is formed in the box body; and

indoor heat exchanger is located in the box, the separator the box and indoor heat exchanger encloses to establish indoor region, the separator the box indoor heat exchanger and the access panel encloses to establish outdoor region.

In one embodiment, the partition has a sealing surface group at its end facing the access panel, said sealing surface group abutting the access panel.

In one embodiment, the air treatment device further comprises:

a mount air treatment device connected to a side of the partition air treatment device facing the outdoor area air treatment device;

the first stop piece air treatment equipment is clamped with the mounting seat air treatment equipment;

the capacitor air treatment equipment is positioned in the outdoor area air treatment equipment, one end of the capacitor air treatment equipment is abutted against the first stopper air treatment equipment, and the first stopper air treatment equipment is sleeved on the capacitor air treatment equipment; and

a second stopper air treatment device connected to a side of the partition air treatment device facing the outdoor area air treatment device, the second stopper air treatment device being located at a side of the mount base air treatment device facing away from the first stopper air treatment device, the second stopper air treatment device abutting against the other end of the capacitor air treatment device;

wherein the first stopper air treatment device is located at an end of the capacitor air treatment device facing the access panel air treatment device.

The air treatment equipment of this application embodiment, heat transfer incasement portion is separated for indoor region and outdoor region by the separator, because separator and fan shell are the integral type structure for the separator is integrated to the fan shell, and the separator is attached to the fan shell and no longer is an independent spare part, and the separator can be along with the fan shell dismouting together as a whole, therefore has reduced the quantity of the spare part that needs the dismouting, makes air treatment equipment can simplify.

Drawings

FIG. 1 is a schematic structural view of an air treatment device according to an embodiment of the present application;

FIG. 2 is an enlarged view of FIG. 1 at position A;

FIG. 3 is an exploded view of an air treatment device according to an embodiment of the present application, illustrating a state in which a first stopper, a capacitor, and a second stopper are disassembled from each other, and illustrating a complete structure of a main box;

FIG. 4 is an enlarged view at position B in FIG. 3;

FIG. 5 is a schematic structural diagram of a first stop according to an embodiment of the present application;

FIG. 6 is an enlarged view of FIG. 3 at position C;

FIG. 7 is an exploded view of an air treatment device in accordance with an embodiment of the present application, showing an installed state of a first stopper and a capacitor, and a disassembled state of the capacitor and the first stopper as a unit from a mounting base, not showing a complete structure of a main box;

FIG. 8 is a schematic structural view of an air treatment apparatus according to an embodiment of the present application, showing a state where a first stopper and a capacitor are mounted on a mount, not showing a complete structure of a main box;

FIG. 9 is a schematic structural view of an air treatment device according to an embodiment of the present application, illustrating a state where a main box and an access panel are detached from each other;

FIG. 10 is an enlarged view of FIG. 9 at position D;

FIG. 11 is an enlarged view at position E in FIG. 10;

FIG. 12 is a schematic structural view of an air treatment device according to an embodiment of the present application, illustrating a state where an access panel is closed to a main box;

fig. 13 is an enlarged view at position F in fig. 12.

Description of reference numerals: a heat exchange tank 1; a main box 11; an access opening 111; a case 112; an indoor heat exchanger 113; end plates 1131; an outdoor heat exchanger 114; an access panel 12; a pre-fixing portion 121; a winding post 1211; a line card 1212; a card slot 12121; a threading hole 13; a barb 131; a separator 2; a first wiring duct 21; a first sidewall 211; a second sidewall 212; a sealing face group 22; a first sealing surface 221; a second sealing surface 222; an indoor area 3; an outdoor area 4; an indoor fan 5; a blower housing 51; an indoor wind wheel 52; a second wiring duct 6; a mounting seat 7; the mounting hole 71; a boss 72; a first stopper 8; an elastic clip portion 81; a bayonet 811; a capacitor 9; a second stopper 100; a compressor 300; an outdoor fan 400; an outdoor wind wheel 401; a second direct current motor 402; a transition zone 500.

Detailed Description

It should be noted that, in the present application, technical features in examples and embodiments may be combined with each other without conflict, and the detailed description in the specific embodiment should be understood as an explanation of the gist of the present application and should not be construed as an improper limitation to the present application.

In the description of the embodiments of the present application, "upper", "lower", "top", "bottom", orientation or positional relationship is based on the orientation or positional relationship shown in fig. 3, it being understood that these orientation terms are merely for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be considered limiting of the present application. Referring to fig. 3, the up-down direction is a direction indicated by an arrow R3 in the drawing.

Before describing the embodiments of the present application, as part of the inventive concept of the present application, the reason why the number of parts is large in the related art needs to be analyzed, and the technical solution of the embodiments of the present application is obtained through reasonable analysis.

In the related art, the air processing equipment does not distinguish independent indoor units and outdoor units, but parts of the indoor units and the outdoor units are integrated in a box body, although the parts of the indoor units and the outdoor units are integrated in the box body, working environments of indoor areas and outdoor areas are different to a certain extent, the indoor areas and the outdoor areas need to be separated, the indoor areas and the outdoor areas in the related art are separated through partition plates, the partition plates are independent parts and are not integrated with any parts of the indoor areas and the outdoor areas, and the partition plates need to be detached independently in the process of detaching the air processing equipment, so that the number of the parts, which need to be detached, of the air processing equipment is large.

In view of this, the present embodiment provides an air treatment apparatus, referring to fig. 1, 3, 6, 7, 8 and 9, the air treatment apparatus includes a heat exchange box 1, a partition 2 and an indoor fan 5. A partition 2 is located inside the heat exchange box 1, the partition 2 enclosing the heat exchange box 1 into an indoor area 3 and an outdoor area 4, the partition 2 being located between the indoor area 3 and the outdoor area 4. The indoor fan 5 includes a fan housing 51 located in the indoor area 3 and an indoor wind wheel 52 installed in the fan housing 51, and the fan housing 51 and the partition 2 are of an integrated structure. Like this structural style, heat exchange box 1 is inside to be separated into indoor zone 3 and outdoor zone 4 by separator 2, because separator 2 and fan shell 51 are the integral type structure for separator 2 has integrated to fan shell 51 on, separator 2 depends on fan shell 51 no longer is an independent spare part, and separator 2 can be along with fan shell 51 and do a whole dismouting together, therefore has reduced the quantity of the spare part that needs the dismouting, makes air treatment equipment simplify.

It should be noted that the fan housing 51 is located in the indoor area 3, and the indoor wind wheel 52 located in the fan housing 51 rotates to suck the airflow in the indoor area 3 into the fan housing 51, and discharges the airflow out of the fan housing 51 through the air outlet of the fan housing 51 into the indoor working area, for example, the air discharged from the air outlet of the fan housing 51 enters into a room to cool the room.

In one embodiment, the air treatment device may be an air conditioner, which may be a window, a desktop, or a mobile air treatment device.

In one embodiment, the air treatment device may be used in a toilet or bathroom.

In one embodiment, the partition 2 and the blower housing 51 may be integrally formed.

In one embodiment, the partition 2 and the blower housing 51 may be welded.

In one embodiment, the partition 2 is connected to the blower housing 51 by a fastener.

In one embodiment, the partition 2 includes a first partition and a second partition connected to each other, and the first partition is integrally formed with the blower housing 51.

In one embodiment, the first and second dividers may be welded, integrally formed, or connected by fasteners.

In one embodiment, the indoor fan 5 may be a crossflow fan.

It will be appreciated that other types of fans may be used for the indoor fan 5 as appropriate.

In one embodiment, the blower housing 51 is a volute.

In one example, the indoor wind wheel 52 is a cross flow wind wheel.

It will be appreciated that other types of rotors may be used for the indoor rotor 52 as appropriate.

In one embodiment, indoor fan 5 further includes an indoor driving member for driving indoor wind wheel 52 to rotate, and the indoor driving member is located in indoor area 3.

In one embodiment, the indoor driving member may be a first dc motor.

In one embodiment, the first dc motor is located below the indoor wind wheel 52.

Specifically, referring to fig. 1, fig. 1 shows a structure above a wind wheel, a first dc motor is located at the other side of the wind wheel shown in fig. 1, and the first dc motor is hidden from view in fig. 1 and is not shown.

It will be appreciated that other types of power sources capable of driving the indoor wind rotor 52 into rotation may be used for the indoor drive.

In one embodiment, the partition 2 may be a partition.

In one embodiment, the baffle is integrally formed with blower housing 51.

In one embodiment, referring to fig. 1, 3, 7 and 8, the air processing apparatus further includes an outdoor fan 400 located in the outdoor area 4.

In an embodiment, referring to fig. 1, 3, 7 and 8, the outdoor fan 400 includes an outdoor wind wheel 401 and an outdoor driving member for driving the outdoor wind wheel 401 to rotate.

In one embodiment, the outdoor driving member may be the second dc motor 402.

It will be appreciated that other types of power sources capable of driving the indoor wind rotor 52 into rotation may be used for the indoor drive.

In one embodiment, referring to fig. 1 to 3 and fig. 6 to 8, the partition 2 is formed with a first wiring groove 21 between the indoor area 3 and the outdoor area 4. Like this structural style, because be formed with the first trough 21 that is located between indoor zone 3 and outdoor zone 4 on the separator 2, the electric wire can arrange in first trough 21, need not additionally set up the buckle that is used for the line, has reduced the quantity of spare part.

In one embodiment, a structure for fixing the electric wire may be provided on the separator 2 so as to run the wire, and for example, a wire clamping device may be provided on the separator 2.

In one embodiment, referring to fig. 1 to 3 and fig. 6 to 8, the first wire casing 21 is located above the partition 2.

In an embodiment, referring to fig. 1 to 3 and fig. 6 to 8, a side wall of the first cabling duct 21 facing the indoor area 3 is a first side wall 211, a side wall of the first cabling duct 21 facing the outdoor area 4 is a second side wall 212, and at least one of the first side wall 211 and the second side wall 212 is configured to be sealed with the heat exchange box 1. With such a configuration, by sealing at least one of the first side wall 211 and the second side wall 212 with the heat exchange box 1, the indoor area 3 and the outdoor area 4 can be separated more effectively, and the possibility of the air flow of the indoor area 3 and the air flow of the outdoor area 4 moving mutually is reduced.

In one embodiment, referring to fig. 1-3, and fig. 6-8, the first sidewall 211 and the second sidewall 212 are both configured to seal with the heat exchange box 1. According to the structure, the first side wall 211 and the second side wall 212 of the first wiring groove 21 are sealed with the heat exchange box 1, wiring in the first wiring groove 21 is achieved, a double-layer sealing structure is formed between the indoor area 3 and the outdoor area 4, the indoor area 3 and the outdoor area 4 can be effectively separated, and the possibility of mutual movement of air flow of the indoor area 3 and air flow of the outdoor area 4 is reduced.

In an embodiment, the first side wall 211 may be sealed with the heat exchange tank 1, but the second side wall 212 is not sealed with the heat exchange tank 1.

In an embodiment, the second side wall 212 may be sealed with the heat exchange tank 1, but the first side wall 211 is not sealed with the heat exchange tank 1.

In an embodiment, the side wall of the top of the first cabling channel 21 is a third side wall, and the third side wall is connected to the first side wall 211 and the second side wall 212 respectively, and can be sealed with the heat exchange box 1 through the third side wall.

It will be appreciated that the air treatment apparatus may have ac power lines for carrying ac power and may also have dc power lines for carrying dc power. In one embodiment, referring to fig. 3, 7 and 8, the air treatment device is formed with a second cabling duct 6, the second cabling duct 6 being at least partially formed in the divider 2. The first cabling channel 21 is used to accommodate ac wiring and the second cabling channel 6 is used to accommodate dc wiring. Structural style like this, because first trough 21 is used for holding the alternating current electric wire, second trough 6 is used for holding the direct current electric wire for alternating current electric wire and direct current electric wire walk the line in the trough of difference, can prevent to a certain extent that the signal of telecommunication in the direct current electric wire is by alternating current interference.

It should be noted that the ac electric wire and the dc electric wire in the embodiment of the present application are not different from each other in the electric wire itself, and the ac electric wire and the dc electric wire are both common electric wires, and the ac electric wire and the dc electric wire themselves are capable of being supplied with both dc and ac. Only when the air treatment device is in operation are the currents passed through the ac and dc lines different. An alternating current wire means that, in the operating state, the wire is usually supplied with alternating current instead of direct current. By dc wire is meant that, in the operating state, the wire is normally supplied with dc current instead of ac current.

In one embodiment, the second routing channel 6 is formed on the partition 2.

In one embodiment, the second cabling duct 6 spans the partition 2 and the blower housing 51.

In one embodiment, the second routing channel 6 is formed in the first divider.

In one embodiment, the second cabling duct 6 spans the first divider and the blower housing 51.

In an embodiment, referring to fig. 3, 7 and 8, the first dc motor is located on a side of the indoor wind wheel 52 away from the first cabling channel 21 along an axial direction of the indoor wind wheel 52, the second cabling channel 6 is located at an end of the partition 2 away from the first cabling channel 21, and a power line of the second dc motor 402 passes through the second cabling channel 6. According to the structure, the first direct current motor is located on one side, away from the first direct current groove, of the indoor wind wheel 52 along the axial direction of the indoor wind wheel 52, the second wiring groove 6 is located on one side, facing the first direct current motor, of the first wiring groove 21 along the axial direction of the indoor wind wheel 52, the position of the second wiring groove 6 is close to the first direct current motor, the power line of the second direct current motor 402 penetrates through the second wiring groove 6, the power line of the second direct current motor 402 is favorably arranged to the position close to the first direct current motor and is converged with the power line of the first direct current motor, the power line of the first direct current motor and the power line of the second direct current motor 402 are arranged to a target position together, the wires in the heat exchange box 1 are arranged in order, and the disorder degree of the wires in the heat exchange box 1 can be reduced to a certain degree.

In one embodiment, in addition to the power line of the second dc motor 402, other dc wires may also be inserted into the second wire slot 6. For example, the direct current wire penetrating through the second linear groove may also be a direct current signal wire.

In one embodiment, referring to fig. 1, 3, 7 and 8, the first cabling duct 21 is located above the partition 2, the first dc motor is located below the indoor wind wheel 52, and the second cabling duct 6 is located below the partition 2.

In one embodiment, referring to fig. 3 and fig. 7 to 11, the partitioning member 2 has a sealing surface group 22 abutting against the heat exchange box 1, and the sealing surface group 22 is located at one end of the partitioning member 2. In this configuration, the sealing surface group 22 abuts against the heat exchange box 1, and the partitioning member 2 is sealed against the heat exchange box 1 by the sealing surface group 22, so that the indoor area 3 and the outdoor area 4 can be partitioned more effectively, the possibility that the air flow in the indoor area 3 and the air flow in the outdoor area 4 flow each other is reduced, and the respective working environments corresponding to the indoor area 3 and the outdoor area 4 are maintained as much as possible.

In one embodiment, referring to fig. 3 and fig. 7 to 11, the circumferential direction of the indoor wind wheel 52 is a reference direction, and at least one end of the partition 2 along the reference direction has a sealing surface group 22.

In one embodiment, the partitioning member 2 has the sealing surface groups 22 at both ends in the reference direction.

In one embodiment, referring to fig. 11, the sealing surface group 22 includes a plurality of first sealing surfaces 221 and a plurality of second sealing surfaces 222, the first sealing surfaces 221 and the second sealing surfaces 222 are arranged in a crossed manner, a direction in which the plurality of first sealing surfaces 221 are arranged at intervals is a first direction, a direction in which the plurality of second sealing surfaces 222 are arranged at intervals is a second direction, and the first direction and the second direction are arranged in a crossed manner. In such a structure, the first sealing surface 221 and the second sealing surface 222 are arranged in a net structure, and the first sealing surface 221 and/or the second sealing surface 222 are/is abutted against the heat exchange box 1, so that the sealing surface group 22 forms a multi-layer seal with the heat exchange box 1, and the sealing performance of the partition 2 and the heat exchange box 1 can be improved to a certain extent, so that the indoor area 3 and the outdoor area 4 are effectively separated, the possibility that the air flow of the indoor area 3 and the air flow of the outdoor area 4 flow each other is reduced, and the respective working environments of the indoor area 3 and the outdoor area 4 are maintained as much as possible.

Referring to fig. 11, the first direction is a direction indicated by an arrow R1 in the drawing, and the second direction is a direction indicated by an arrow R2 in the drawing.

In one embodiment, referring to fig. 11, the first direction is perpendicular to the second direction.

In one embodiment, referring to fig. 11, the first sealing surface 221 and the second sealing surface 222 are both elongated.

In one embodiment, referring to fig. 11, when the first sealing surface 221 and the second sealing surface 222 are both elongated, the first direction is perpendicular to the length direction of the first sealing surface 221, and the second direction is perpendicular to the length direction of the second sealing surface 222.

In one embodiment, referring to fig. 11, the first sealing surface 221 and the second sealing surface 222 are both rectangular.

In one embodiment, referring to fig. 11, when the first sealing surface 221 and the second sealing surface 222 are disposed crosswise, the first sealing surface 221 and the second sealing surface 222 partially overlap.

In one embodiment, referring to fig. 11, when the first sealing surface 221 and the second sealing surface 222 are both elongated, the length direction of the first sealing surface 221 is perpendicular to the length direction of the second sealing surface 222.

In one embodiment, the number of first sealing surfaces 221 is two, three, four, or five.

In one embodiment, the number of second sealing surfaces 222 is two, three, four, or five.

In one embodiment, referring to fig. 3 and 7, the first trough 21 is located above the sealing surface group 22.

In an embodiment, referring to fig. 1, fig. 3, fig. 7 and fig. 8, the air processing apparatus further includes a compressor 300, where the compressor 300 is configured to condense and liquefy the gasified refrigerant to release heat of the refrigerant.

In one embodiment, the compressor 300 is powered by ac power, the power line of the compressor 300 is an ac power line, and the power line of the compressor 300 is inserted into the first wire trough 21.

In one embodiment, referring to fig. 3, 7 and 8, the air treatment device further includes a capacitor 9 installed in the outdoor area 4.

In one embodiment, capacitor 9 is used to start compressor 300.

It will be appreciated that the capacitor 9 is a wearing part and needs to be replaced for maintenance. In an embodiment, referring to fig. 3, 7 and 8, the air treatment apparatus further includes a mounting seat 7, a first stopper 8 and a second stopper 100. The mount 7 is attached to the side of the partition 2 facing the outdoor area 4. The first stop member 8 is clamped with the mounting seat 7, and the capacitor 9 is sleeved with the first stop member 8. One end of the capacitor 9 abuts against the first stopper 8. A second stopper 100 is connected to a side of the partition 2 facing the outdoor area 4, the second stopper 100 is located on a side of the mounting seat 7 facing away from the first stopper 8, and the second stopper 100 abuts against the other end of the capacitor 9. According to the structure, the first stop part 8 is connected with the mounting seat 7 in a clamping mode, so that the position of the first stop part 8 is limited by the mounting seat 7, the first stop part 8 is sleeved on the capacitor 9, the capacitor 9 abuts between the first stop part 8 and the second stop part 100, the capacitor 9 is limited by the first stop part 8 and the second stop part 100, the capacitor 9 is detachably mounted on the mounting seat 7, and replacement and maintenance of the capacitor 9 are facilitated. In addition, the first stop piece 8 and the second stop piece 100 are abutted against the two ends of the capacitor 9 to realize the installation and fixation of the capacitor 9, and the capacitor 9 is installed without using screws, so that the capacitor 9 is simple and convenient to assemble and disassemble.

In one embodiment, the second stop 100 is a stop.

In one embodiment, the second stopper 100 is integrally formed with the separator 2.

In an embodiment, referring to fig. 5 and 6, an elastic clamping portion 81 is formed at one end of the first stopper 8, the elastic clamping portion 81 has a bayonet 811, one end of the first stopper 8 departing from the elastic clamping portion 81 abuts against the capacitor 9, the mounting base 7 is formed with a mounting hole 71 and a boss 72, the boss 72 is located at one side of the mounting base 7 departing from the mounting hole 71, the boss 72 is used for being clamped into the bayonet 811 to clamp the first stopper 8 with the mounting base 7, and the capacitor 9 is inserted into the mounting hole 71. Structural style like this, mounting hole 71 is worn to locate by condenser 9, mounting hole 71 can play the effect of radial restraint to condenser 9, first stopper 8 is pushed to mount pad 7, first stopper 8 opens under the squeezing action of boss 72, continue to promote first stopper 8 and make boss 72 extrude in bayonet 811 of elasticity joint portion 81, thereby realize the joint of first stopper 8 and mount pad 7, radial restraint to condenser 9 through mounting hole 71, both ends through first stopper 8 and second stopper 100 butt condenser 9 respectively are in order to the axial restraint to condenser 9, thereby the realization is fixed to the detachably installation of condenser 9.

In an embodiment, referring to fig. 5 and fig. 6, the number of the elastic clamping portions 81 is at least two, and at least two elastic clamping portions 81 are oppositely arranged. The number of the bosses 72 on the mounting base 7 is at least two, the two bosses 72 are oppositely arranged, and the bosses 72 are extruded into the corresponding elastic clamping parts 81 to clamp the first stop part 8 with the mounting base 7.

In one embodiment, the first stop 8 is a capacitor cap.

In one embodiment, the capacitor cap may be made of an insulating and flame-retardant material.

In one embodiment, referring to fig. 1 and 9 to 13, the heat exchange box 1 includes a main box 11 and an access cover 12, the partition 2 is located in the main box 11, and the main box 11 is formed with an access opening 111. The access panel 12 covers the access opening 111, the access panel 12 is connected with the main box 11, the access panel 12, the main box 11 and the partition 2 enclose an outdoor area 4, and the partition 2 and the main box 11 enclose an indoor area 3. According to the structure, the maintenance opening 111 is formed in the main box 11, the maintenance cover plate 12 covers the maintenance opening 111, when the main box 11 needs to be maintained, the maintenance cover plate 12 is opened, maintenance operation is convenient and simple, and maintenance operation is not needed after the main box 11 is detached.

In one embodiment, referring to fig. 3, 7-10, the first stop member 8 is located at an end of the capacitor 9 facing the access panel 12. Structural style like this, because first stop part 8 is located condenser 9 towards the one end of overhauing apron 12, open and overhaul apron 12, can operate the first stop part 8 of installing in outdoor zone 4 promptly, can pull down the first stop part 8 of joint on mount pad 7, take out the condenser 9 that damages in the lump, after changing new condenser 9, again with first stop part 8 joint on mount pad 7, after the change is accomplished, cover 12 covers overhauing. The capacitor is replaced or other overhaul operations are carried out without disassembling the whole main box 11, so that the capacitor 9 is convenient to replace and maintain.

In one embodiment, referring to fig. 9, 10, 12 and 13, the access cover 12 is clamped to the main box 11, and/or the access cover 12 is screwed to the main box 11.

In one embodiment, the heat exchange box 1 may not be provided with the access cover 12, and the main box 11 may not be provided with the access opening 111.

In one embodiment, referring to fig. 7 to 13, when the capacitor 9 is detachably mounted on the mounting base 7 through the first stopper 8 and the second stopper 100, the access cover 12 is located at an end of the capacitor 9 facing the first stopper 8 along the arrangement direction of the first stopper 8 and the second stopper 100. Like this structural style, when needing to be changed electric capacity, can open maintenance apron 12, because maintenance apron 12 is located condenser 9 towards the one end of first stop part 8, make things convenient for operating personnel to dial out first stop part 8, make the change operation of condenser 9 comparatively convenient.

It will be appreciated that the access panel 12 and the access opening 111 in the main box 11 may be provided at other locations, as long as the access panel 12 can be opened to replace the capacitor 9.

In one embodiment, referring to fig. 3 and 6 to 10, the end of the partition 2 facing the access cover 12 has a sealing surface group 22, and the sealing surface group 22 abuts against the access cover 12. In this configuration, the sealing surface group 22 abuts against the access panel 12, so that a good seal is formed between the indoor area 3 and the outdoor area 4, and the possibility that the air flow in the indoor area 3 and the air flow in the outdoor area 4 flow each other is reduced.

In one embodiment, referring to fig. 3, 6-10, the access panel 12 and the partition 2 define a transition region 500. The transition area 500 is located between the indoor area 3 and the outdoor area 4.

In one embodiment, referring to fig. 3, 6-10, the transition region 500 is located on a side of the sealing land set 22 facing the indoor area 3.

In one embodiment, the air treatment apparatus further comprises an electronic control box.

In one embodiment, the electronic control box is connected to the outside of the main box 11. In this configuration, the electronic control box is located outside the main box 11, so that there is enough space in the main box 11 to install other components.

In one embodiment, referring to fig. 9, 10, 12 and 13, the access cover 12 and the main box 11 are enclosed to form a threading hole 13, the electric control box outside the main box 11 is used for connecting with one end of the electric wire, and the threading hole 13 is used for avoiding the electric wire so that the other end of the electric wire enters the main box 11 through the threading hole 13. Due to the structure, the maintenance cover plate 12 and the main box 11 are enclosed into the threading hole 13, so that the electric wire in the main box 11 can be conveniently threaded through the threading hole 13 to be connected with the electric control box.

In an embodiment, referring to fig. 13, the number of the threading holes 13 is at least two, one threading hole 13 corresponds to the first cabling slot 21 for the ac wires to pass through the main box 11, and the other threading hole 13 corresponds to the second cabling slot 6 for the dc wires to pass through the main box 11.

In one embodiment, the wires connected to the electrical control box include dc wires and ac wires, the dc wires and the ac wires enter the main box 11 through the wire passing hole 13, at least a portion of the ac wires entering the main box 11 are inserted into the first wire slot 21, and at least a portion of the dc wires entering the main box 11 are inserted into the second wire slot 6.

In one embodiment, after the power line of the second dc motor 402 is merged with the power line of the first dc motor through the second wiring slot 6, both the power line of the second dc motor 402 and the power line of the first dc motor are connected to the electronic control box. The power line of the first dc motor and the power line of the second dc motor 402 are both dc wires.

In one embodiment, the threading hole 13 may be defined by a semicircular hole on the main box 11 and a semicircular hole on the access cover 12.

In an embodiment, referring to fig. 9 and 10, the threading hole 13 may be formed by surrounding a U-shaped groove on the main box 11 and a U-shaped groove on the access cover 12.

In one embodiment, referring to fig. 9 and 10, barbs 131 are formed on the main box 11, and the barbs 131 are located at the openings of the U-shaped grooves of the main box 11. When the access panel 12 is detached from the main box 11, the barbs 131 prevent the electric wires in the U-shaped grooves of the main box 11 from coming out of the U-shaped grooves of the main box 11.

It can be understood that, when the electric wire in the main box 11 extends to the outside of the main box 11 through the threading hole 13, there is a certain distance between the threading hole 13 and the electric control box, and the electric wire between the threading hole 13 and the electric control box needs to be fixed so that the wiring is safer, and the electric wire is prevented from shaking to cause poor contact or being damaged in the shaking process. In an embodiment, referring to fig. 12 and 13, a pre-fixing portion 121 is formed on an outer side of the access cover 12, and the pre-fixing portion 121 is used for pre-fixing an electric wire passing through the wire passing hole 13. With such a structure, the electric wires between the threading holes 13 and the electric control box can be fixed through the pre-fixing part 121 on the outer side of the access cover plate 12.

In one embodiment, referring to fig. 12 and 13, the pre-fixing portion 121 includes a winding post 1211 and a line card 1212, the winding post 1211 is used for winding the electric wire, and the line card 1212 has a slot 12121 for holding the electric wire. With such a structure, when the electric wire extended from the main box 11 is long, the electric wire can be wound on the winding post 1211, and the electric wire between the threading hole 13 and the electric control box can be prevented from excessively shaking due to an excessively long length. After the wire is partially wound around the winding post 1211, the wire can be held by the wire clip 1212 to keep the wire wound around the winding post 1211 in a wound state, thereby preventing the wire wound around the winding post 1211 from being separated from the winding post 1211. The wire between the threading hole 13 and the electric control box can be well fixed by the cooperation of the winding post 1211 and the wire clip 1212.

In one embodiment, referring to fig. 1, the main box 11 includes a box body 112 and an indoor heat exchanger 113. The partition 2 is located in the case 112, and the access opening 111 is formed in the case 112. The indoor heat exchanger 113 is located in the casing 112, the partition 2, the casing 112, and the indoor heat exchanger 113 enclose an indoor area 3, and the partition 2, the casing 112, the indoor heat exchanger 113, and the access panel 12 enclose an outdoor area 4. According to the structure, the indoor area 3 is directly enclosed by the indoor heat exchanger 113, parts required by the enclosed indoor area 3 are reduced, the length of the partition 2 required by the enclosed indoor area 3 extending along the circumferential direction of the indoor wind wheel 52 is shortened, the space occupied by the parts enclosed in the indoor area 3 can be reduced to a certain extent, and the miniaturization of the air treatment equipment is facilitated.

In one embodiment, referring to fig. 1 to 4, end plates 1131 are disposed at two ends of the indoor heat exchanger 113, and the partition 2 is hermetically connected to the corresponding end plates 1131. In this configuration, the end plate 1131 is connected to the partition 2, so that the indoor heat exchanger 113 and the partition 2 can be sealed well.

Referring to fig. 4, in one embodiment, an end plate 1131 at one end of the indoor heat exchanger 113 is shown, and the end plate 1131 at the other end opposite to the end where the end plate 1131 is shown is connected with the partition 2 in a sealing manner.

In one embodiment, referring to fig. 1-4, the end plate 1131 is L-shaped.

In one embodiment, referring to fig. 1 to 4, the end plate 1131 is used for fixing the heat dissipation pipe of the indoor heat exchanger 113.

In one embodiment, the partition 2 and the case 112 are enclosed as an indoor area 3, and the indoor heat exchanger 113 is located in the indoor area 3.

In an embodiment, the main box 11 further includes an outdoor heat exchanger 114, the outdoor heat exchanger 114 is located in the outdoor area 4, in the cooling mode, the compressor 300 compresses the gaseous refrigerant, which has absorbed heat by the indoor heat exchanger 113, and the gaseous refrigerant enters the outdoor heat exchanger 114 to be condensed into a liquid refrigerant, and releases heat, and the outdoor fan 400 cools the outdoor heat exchanger 114 to take away heat released by the refrigerant in the outdoor heat exchanger 114.

The various embodiments/implementations provided herein may be combined with each other without contradiction.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (16)

1. An air treatment device, comprising:

a heat exchange box (1);

-a partition (2) located inside the heat exchange box (1), the partition (2) enclosing with the heat exchange box (1) an indoor area (3) and an outdoor area (4), the partition (2) being located between the indoor area (3) and the outdoor area (4); and

indoor fan (5), including being located fan shell (51) of indoor region (3) with install in indoor wind wheel (52) in fan shell (51), fan shell (51) with separator (2) are the integral type structure.

2. An air treatment device according to claim 1, characterized in that the partition (2) is formed with a first cabling duct (21) between the indoor area (3) and the outdoor area (4).

3. An air treatment device according to claim 2, characterized in that the side wall of the first cabling duct (21) on the side facing the indoor area (3) is a first side wall (211), the side wall of the first cabling duct (21) on the side facing the outdoor area (4) is a second side wall (212), and at least one of the first side wall (211) and the second side wall (212) is configured to be sealed against the heat exchange box (1).

4. An air treatment device according to claim 2, characterized in that it is formed with a second cabling channel (6), said second cabling channel (6) being formed at least partially in the partition (2); the first wiring groove (21) is used for accommodating alternating current wires, and the second wiring groove (6) is used for accommodating direct current wires.

5. The air treatment apparatus according to claim 4, wherein the indoor fan (5) further comprises a first DC motor for driving the indoor wind wheel (52) to rotate, the first DC motor is located on one side of the indoor wind wheel (52) facing away from the first cabling channel (21) along the axial direction of the indoor wind wheel (52), and the second cabling channel (6) is located on one end of the partition (2) facing away from the first cabling channel (21); the air treatment equipment further comprises an outdoor fan (400) located in the outdoor area (4), the outdoor fan (400) comprises an outdoor wind wheel (401) and a second direct current motor (402) for driving the outdoor wind wheel (401) to rotate, and a power line of the second direct current motor (402) penetrates through the second wiring groove (6).

6. An air treatment device according to claim 1, characterized in that the partition (2) has a sealing surface group (22) abutting the heat exchange box (1), the sealing surface group (22) being located at one end of the partition (2).

7. An air treatment device according to claim 6, wherein the sealing surface group (22) comprises a plurality of first sealing surfaces (221) and a plurality of second sealing surfaces (222), the first sealing surfaces (221) and the second sealing surfaces (222) being arranged crosswise, the direction in which the plurality of first sealing surfaces (221) are arranged at intervals being a first direction, the direction in which the plurality of second sealing surfaces (222) are arranged at intervals being a second direction, and the first direction and the second direction being arranged crosswise.

8. An air treatment device according to any of claims 1 to 7, further comprising:

a mounting seat (7) connected to a side of the partition (2) facing the outdoor area (4);

the first stop piece (8) is clamped with the mounting seat (7);

a capacitor (9) located in the outdoor area (4), wherein one end of the capacitor (9) is abutted against the first stopper (8), and the first stopper (8) is sleeved on the capacitor (9); and

the second stop piece (100) is connected to one side, facing the outdoor area (4), of the partition piece (2), the second stop piece (100) is located on one side, facing away from the first stop piece (8), of the mounting seat (7), and the second stop piece (100) is abutted to the other end of the capacitor (9).

9. The air treatment device according to claim 8, wherein one end of the first stopper (8) is formed with an elastic clamping portion (81), the elastic clamping portion (81) has a bayonet (811), one end of the first stopper (8) departing from the elastic clamping portion (81) abuts against the capacitor (9), the mounting seat (7) is formed with a mounting hole (71) and a boss (72), the boss (72) is located on one side of the mounting seat (7) departing from the mounting hole (71), the boss (72) is used for clamping the bayonet (811) to enable the first stopper (8) to be clamped with the mounting seat (7), and the capacitor (9) is arranged in the mounting hole (71) in a penetrating manner.

10. An air treatment device according to any of claims 1-7, characterized in that the heat exchange box (1) comprises:

a main box (11), the partition (2) being located inside the main box (11), the main box (11) being formed with an access opening (111); and

access panel (12), cover in access hole (111), access panel (12) with main tank (11) are connected, access panel (12) main tank (11) and separator (2) enclose and establish outdoor region (4), separator (2) with main tank (11) enclose and establish indoor region (3).

11. An air treatment device according to claim 10, further comprising an electric control box connected to the outside of the main box (11), wherein the access panel (12) and the main box (11) are enclosed to form a threading hole (13), the electric control box is used for connecting with one end of the electric wire, and the threading hole (13) is used for avoiding the electric wire so that the other end of the electric wire enters the main box (11) through the threading hole (13).

12. The air treatment apparatus according to claim 11, wherein a pre-fixing portion (121) is formed at an outer side of the access panel (12), and the pre-fixing portion (121) is used for pre-fixing the electric wire threaded through the threading hole (13).

13. The air treatment device according to claim 12, wherein the pre-fixing portion (121) comprises a wrapping post (1211) and a line card (1212), the wrapping post (1211) being used for wrapping the electric wire, the line card (1212) having a card slot (12121) for clamping the electric wire.

14. An air treatment device according to claim 10, characterized in that the main box (11) comprises:

a box (112), the partition (2) being located inside the box (112), the access opening (111) being formed in the box (112); and

an indoor heat exchanger (113) located in the box (112), the partition (2), the box (112) and the indoor heat exchanger (113) enclose into the indoor area (3), the partition (2), the box (112), the indoor heat exchanger (113) and the access panel (12) enclose into the outdoor area (4).

15. An air treatment device according to claim 10, characterized in that the partition (2) has a sealing surface group (22) at its end facing the access panel (12), the sealing surface group (22) abutting the access panel (12).

16. The air treatment apparatus of claim 10, further comprising:

a mounting seat (7) connected to a side of the partition (2) facing the outdoor area (4);

the first stop piece (8) is clamped with the mounting seat (7);

a capacitor (9) located in the outdoor area (4), wherein one end of the capacitor (9) is abutted against the first stopper (8), and the first stopper (8) is sleeved on the capacitor (9); and

a second stopper (100) connected to a side of the partition (2) facing the outdoor area (4), the second stopper (100) being located on a side of the mounting seat (7) facing away from the first stopper (8), the second stopper (100) abutting against the other end of the capacitor (9);

wherein the first stop (8) is located at an end of the capacitor (9) facing the access panel (12).

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