CN108224564B - Air supply assembly and cabinet air conditioner indoor unit with same - Google Patents

Abstract

The invention provides an air supply assembly. The invention provides an air supply assembly. The air supply assembly includes a plurality of longitudinally-distributed centrifugal fans and a fan bracket defining an accommodating space for accommodating the plurality of centrifugal fans. The fan bracket is provided with a plurality of mounting openings penetrating through the fan bracket along the transverse direction, and the mounting openings are arranged in such a way that the inner walls of the mounting openings are respectively matched with the peripheral walls of the volutes of the plurality of air supply fans, and the fan air inlet and the fan air outlet of each centrifugal fan are exposed. An air inlet channel is arranged between every two adjacent centrifugal fans, and the air inlet channel is configured to guide air positioned at the rear side of the fan bracket to the periphery of the front part of the fan bracket, so that a plurality of centrifugal fans can acquire air from the two lateral sides and the rear side of the fan bracket at the same time, the air supply efficiency of an air supply assembly is improved, and particularly when the air supply assembly is applied to the field of air conditioning, the refrigerating and heating efficiency of an indoor unit of the air conditioner can be effectively improved, and a user can obtain better experience.

Description

Air supply assembly and cabinet air conditioner indoor unit with same

Technical Field

The invention relates to the field of air treatment, in particular to an air supply assembly and a cabinet air conditioner indoor unit with the same.

Background

In the prior art, the cabinet air conditioner indoor unit adopting the centrifugal fan for air supply is mainly arranged on the upper part of the cabinet air conditioner, so that the air outlet area is small, and the air conditioner indoor unit corresponds to the head of a human body and the space position above the head. In the existing cabinet machine, the centrifugal fan is fixed in a mode that the centrifugal fan is directly fixedly connected with the cabinet machine shell through the volute, or the fan is supported by a support fixedly connected with the bottom plate of the cabinet machine shell through the support arranged below the centrifugal fan, and the fan can generate larger vibration noise in the working process, so that the user experience is poor. In view of the comprehensive consideration, there is a need in design for an air supply assembly capable of supplying air in a partitioned manner and having low vibration noise when a fan is operated, and a cabinet air conditioner indoor unit having the air supply assembly.

Disclosure of Invention

An object of the first aspect of the present invention is to provide an air supply assembly capable of supplying air in different areas with high air supply efficiency.

An object of the second aspect of the present invention is to provide an indoor unit of a cabinet air conditioner having the air supply assembly.

In particular, according to a first aspect of the present invention, there is provided an air supply assembly comprising:

a plurality of centrifugal fans longitudinally distributed; and

a fan bracket defining therein an accommodation space for accommodating the plurality of centrifugal fans; wherein the method comprises the steps of

The fan bracket is provided with a plurality of mounting openings penetrating through the fan bracket along the transverse direction, the inner walls of the mounting openings are respectively matched with the peripheral walls of the volutes of the centrifugal fans, and the fan air inlet and the fan air outlet of each centrifugal fan are exposed; it is characterized in that the method comprises the steps of,

an air inlet channel is arranged between every two adjacent centrifugal fans and is configured to guide air positioned at the rear side of the fan bracket to the periphery of the front part of the fan bracket, so that the plurality of centrifugal fans can acquire air from the two lateral sides and the rear side of the fan bracket at the same time.

Optionally, the fan bracket is formed by surrounding two opposite four circumferential side plates and two longitudinal end plates respectively combined with the longitudinal two ends of the four circumferential side plates at each circumferential end part, so as to facilitate the installation and transportation of the air supply assembly.

Optionally, the number of the centrifugal fans is two;

the two centrifugal fans are respectively arranged at the two longitudinal ends of the fan bracket and are in mirror symmetry relative to the central plane of the fan bracket, which is perpendicular to the longitudinal direction; and is also provided with

The installation openings are arranged so that fan air outlets of the two centrifugal fans are respectively exposed on the two longitudinal end plates.

Optionally, an air inlet of the air inlet channel is arranged on a rear circumferential side plate of the fan bracket;

the air outlet of the air inlet channel is arranged on two transverse circumferential side plates of the fan bracket, so that the centrifugal fan can acquire air guided out by the air inlet channel.

Optionally, an air inlet of the air inlet channel is arranged on a rear circumferential side plate of the fan bracket;

the air inlet of the air inlet channel is formed in the front circumferential side plate of the fan bracket, so that resistance of air flowing in the air inlet channel is reduced.

Optionally, two reinforcing ribs extending inwards are arranged on the inner surface of the fan bracket so as to improve the strength of the fan bracket and reduce vibration noise; wherein each of the reinforcing ribs comprises:

the front side line-shaped section is arranged to extend along the transverse direction and is connected with the front circumferential side plate and the two transverse circumferential side plates of the fan bracket; and

the rear side line-shaped section is arranged to extend along the transverse direction and is connected with the rear circumferential side plate and the two transverse circumferential side plates of the fan bracket; wherein the method comprises the steps of

The projection of the front side linear section in the transverse direction is positioned at a position where the distance between the inner wall of the mounting opening and the front circumferential side plate in the front-rear direction is shortest;

the projection of the rear side line segment in the lateral direction is located at a position where the inner wall of the mounting opening is shortest in distance from the rear circumferential side plate in the front-rear direction.

Optionally, when the air inlet of the air inlet channel is opened in the rear circumferential side plate of the fan bracket, the air outlet of the air inlet channel is opened in the two transverse circumferential side plates of the fan bracket:

the air inlets of the air inlet channels are arranged in such a way that the longitudinal inner surfaces of the air inlets are respectively coplanar with the surfaces of the rear side line-shaped sections, which face the mirror symmetry planes of the two centrifugal fans, and the transverse inner surfaces of the air inlets are coplanar with the inner surfaces of the two transverse circumferential side plates, so that the wind resistance of the air inlet channels is reduced, and the air quantity of the air inlet channels is improved;

the air outlet of the air inlet channel is arranged in such a way that two inner surfaces of the air inlet channel in the longitudinal direction extend at equal intervals relative to the outer surfaces of the adjacent volute peripheral walls respectively, so that the centrifugal fan can acquire air guided out of the air inlet channel.

Optionally, when the air intake of the air intake channel is opened in the rear portion circumference curb plate of the fan support, the air intake of the air intake channel is opened in the front portion circumference curb plate of the fan support, the air intake and the air outlet of the air intake channel set up as:

the longitudinal inner surfaces of the centrifugal fans are respectively coplanar with the surfaces of the rear side line-shaped sections, which face the mirror symmetry planes of the two centrifugal fans;

the inner surfaces of the two transverse circumferential side plates are coplanar to reduce wind resistance of the air inlet channel and improve air quantity of the air inlet channel.

Optionally, the number of the fan air inlets of each centrifugal fan is two, and the two fan air inlets are respectively arranged on two volute side walls of the volute, so that the air quantity of the air supply assembly is improved.

According to a second aspect of the present invention, there is provided an indoor unit of a cabinet air conditioner, comprising:

the shell is provided with a shell air inlet and a plurality of shell air outlets;

the air supply assembly is arranged in the shell, and the centrifugal fans are configured to suck ambient air from the surrounding environment of the shell air inlet and promote the ambient air to flow to the shell air outlets respectively; and

the indoor heat exchanger is arranged in the shell and is positioned on an air inlet flow path between the shell air inlet and the plurality of centrifugal fans, so that the ambient air entering through the shell air inlet exchanges heat with the indoor heat exchanger.

According to the invention, the plurality of centrifugal fans are all contained in the containing space defined by the fan bracket, and the plurality of centrifugal fans and the fan bracket form an integrated assembly, compared with the prior art that the plurality of centrifugal fans are fixedly connected through the sheet metal part, the novel air supply assembly is more stable and reliable, and can effectively reduce vibration noise generated in the working process of the air supply assembly.

Furthermore, the air inlet channel is arranged between two adjacent centrifugal fans, so that a plurality of centrifugal fans can acquire air from the two lateral sides and the rear side of the fan bracket at the same time, the air supply efficiency of the air supply assembly is improved, and particularly when the air supply assembly is applied to the field of air conditioning, the refrigerating and heating efficiency of the indoor unit of the air conditioner can be effectively improved, and a user can obtain better experience.

The above, as well as additional objectives, advantages, and features of the present invention will become apparent to those skilled in the art from the following detailed description of a specific embodiment of the present invention when read in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or portions. It will be appreciated by those skilled in the art that the drawings are not necessarily drawn to scale. In the accompanying drawings:

FIG. 1 is a schematic block diagram of an air supply assembly according to one embodiment of the present invention;

FIG. 2 is a schematic exploded view of the air supply assembly shown in FIG. 1;

FIG. 3 is a schematic exploded view of the air moving assembly shown in FIG. 1 from another angle;

FIG. 4 is a schematic block diagram of an air supply assembly according to another embodiment of the present invention;

FIG. 5 is a schematic exploded view of the air supply assembly shown in FIG. 4;

FIG. 6 is a schematic exploded view of the air moving assembly shown in FIG. 4 from another angle;

FIG. 7 is a schematic block diagram of an air supply assembly according to yet another embodiment of the present invention;

FIG. 8 is a schematic exploded view of the air supply assembly shown in FIG. 7;

FIG. 9 is a schematic block diagram of an air supply assembly according to yet another embodiment of the present invention;

FIG. 10 is a schematic exploded view of the air supply assembly shown in FIG. 9;

fig. 11 is a schematic cross-sectional view of a cabinet air conditioner indoor unit according to an embodiment of the present invention;

fig. 12 is a schematic exploded view of the indoor unit of the cabinet air conditioner shown in fig. 11.

Detailed Description

FIG. 1 is a schematic block diagram of an air supply assembly 100 according to one embodiment of the present invention; FIG. 2 is a schematic exploded view of the air supply assembly 100 shown in FIG. 1; FIG. 3 is a schematic exploded view of the air supply assembly 100 shown in FIG. 1 from another angle; FIG. 4 is a schematic block diagram of an air supply assembly 100 according to another embodiment of the present invention; FIG. 5 is a schematic exploded view of the air supply assembly 100 shown in FIG. 4; fig. 6 is a schematic exploded view of the air moving assembly 100 shown in fig. 4 from another angle. Referring to fig. 1 to 6, the air supply assembly 100 may include a plurality of centrifugal fans and a fan bracket for supporting the plurality of centrifugal fans. The fan bracket is internally limited with a containing space for containing all centrifugal fans, and is provided with a plurality of mounting openings 123, the inner walls of which are respectively arranged to be matched with the outer walls of the fan shells of a plurality of centrifugal fans, and the fan air inlet and the fan air outlet of each centrifugal fan are exposed. According to the invention, the centrifugal fans are all accommodated in the accommodating space defined by the fan bracket, and the centrifugal fans and the fan bracket form an integrated assembly, compared with the prior art that the centrifugal fans are fixedly connected through the sheet metal part, the air supply assembly 100 is more stable and reliable, and vibration noise generated in the working process of the air supply assembly 100 can be effectively reduced.

As is well known to those skilled in the art, the centrifugal fan 110 includes a volute 112 and an impeller 111 disposed within the volute 112. Wherein the volute 112 includes two volute sidewalls that together define a volute air channel and a volute perimeter wall that connects the two volute sidewalls. At least one volute sidewall of each centrifugal fan 110 is provided with a fan air inlet. The peripheral wall of the volute includes a volute section gradually expanding relative to the outer contour of the impeller 111, and a volute tongue section and an outlet section respectively extending from two ends of the volute section, and a fan air outlet of the centrifugal fan 110 is formed between the volute tongue section and the outlet section. In the present invention, the plurality of mounting openings 123 of the fan bracket are provided with inner walls thereof respectively in a shape of a volute peripheral wall of the plurality of centrifugal fans 110. The number of fan air inlets of each centrifugal fan 110 is preferably two, and the fan air inlets are respectively arranged on the two side walls of the volute, so as to improve the air quantity of the air supply assembly 100.

In some preferred embodiments, the fan bracket may be surrounded by four circumferential side plates that are opposed to each other in pairs and two longitudinal end plates that are joined to the longitudinal ends of the four circumferential side plates at respective circumferential ends, respectively, to facilitate the production of the fan bracket and the installation and transportation of the air supply assembly 100.

In some embodiments, the number of centrifugal fans 110 may be two. The two centrifugal fans 110 are respectively disposed at both longitudinal ends of the fan bracket and mirror-symmetrical with respect to a central plane of the fan bracket perpendicular to the longitudinal direction. The mounting opening 123 may be configured to extend through the fan bracket in a lateral direction of the fan bracket, and expose fan air inlets of the two centrifugal fans 110 on lateral circumferential side plates of the fan bracket, and fan air outlets on two longitudinal end plates of the fan bracket, respectively.

The following describes the technical solution of the present invention in detail by taking two centrifugal fans 110 as an example.

Referring to fig. 2 and 3, in some preferred embodiments of the present invention, the inner surface of the fan bracket may be provided with a plurality of ribs 124 extending inward to increase the strength of the fan bracket, thereby increasing the stability of the centrifugal fan 110 and reducing vibration noise. In the illustrated embodiment, the number of ribs 124 is two, i.e., one rib 124 for each mounting opening 123. Specifically, each of the ribs 124 may include a front side linear section, a rear side linear section, and two arcuate sections. The front side line shaped section may extend in a lateral direction and connect a front circumferential side plate and two lateral circumferential side plates of the fan bracket. The rear side line shaped section may extend in a lateral direction and connect a rear circumferential side plate and two lateral circumferential side plates of the fan bracket. The projection of the front side line segment in the lateral direction is preferably located at a position where the inner wall of the mounting opening 123 is shortest in distance from the front circumferential side plate in the front-rear direction. The projection of the rear side line shaped section in the lateral direction is preferably located at a position where the inner wall of the mounting opening 123 is the shortest distance from the rear circumferential side plate in the front-rear direction, to ensure that the fan bracket has sufficient strength to support the centrifugal fan 110 and to save material costs. The two arcuate segments may be disposed at the inner peripheral edges of the portions of the mounting opening 123 at the two lateral peripheral side plates, respectively, and are configured to connect the front side linear segment and the rear side linear segment to further enhance the structural strength of the fan bracket. In some further preferred embodiments, the surface of the arcuate segment facing the axis of rotation of the impeller 111 may be disposed coplanar with the inner wall of its corresponding mounting opening 123 to further enhance the stability of the centrifugal fan 110.

Referring to fig. 1-6, in some preferred embodiments of the present invention, the air supply assembly 100 may further include a plurality of connection plates. The plurality of connection plates may be divided into two groups for respectively fixing the two centrifugal fans 110 to the fan bracket. The connection plate may be provided such that one end thereof is fixedly connected to the side wall of the scroll case of the centrifugal fan 110 and the other end thereof is fixedly connected to the periphery of the installation opening 123 corresponding to the centrifugal fan 110. Each set of connection plates may preferably be densely distributed along the extending direction of the corresponding volute air duct of the centrifugal fan 110 (i.e., the airflow flowing direction in the volute air duct of the centrifugal fan 110), so as to improve the stability of the centrifugal fan 110 and reduce the vibration noise. The connection plate may be configured to be pre-secured to the side wall of the volute or the fan bracket to facilitate assembly of the air supply assembly 100.

In some preferred embodiments of the invention, each set of connecting plates may comprise a plurality of radial plates 141 extending in a direction perpendicular to the axis of rotation of the impeller 111 and at least one axial plate 142 extending in a direction parallel to the axis of rotation of the impeller 111. A plurality of radial plates 141 may be provided in fixed connection with the lateral circumferential side plates of the fan bracket. At the periphery of the mounting opening 123 may be provided with a coupling protrusion 125 extending to the outside of the receiving space defined by the fan bracket, and at least one axial plate member 142 may be provided in contact with the coupling protrusion 125 to fix the centrifugal fan 110 to the fan bracket. The connection protrusion 125 is preferably located in the mounting opening 123 with its partial projection on the longitudinal plane extending in the front-rear direction, i.e. the surface of the connection protrusion 125 facing the centrifugal fan 110 is arranged to contact the volute sidewall of the centrifugal fan 110 adjacent thereto, so that the connection of the axial plate 142 and the connection protrusion 125 is more stable and firm, thereby improving the stability of the centrifugal fan 110. In some further preferred embodiments, at least a plurality of radial plates 141 of each set of connecting plates are disposed at locations corresponding to the volute sections of the volute sidewall, and at least one axial plate 142 is disposed at locations corresponding to the outlet sections of the volute sidewall to reduce vibration noise generated when the impeller 111 rotates. In other words, when the number of the axial plate members 142 in each set of the connection plate members is one, the axial plate members 142 are provided at positions corresponding to the outlet sections of the peripheral wall of the scroll case; when the number of the axial plate members 142 in each set of the connection plate members is plural, at least one axial plate member 142 of the plurality of axial plate members 142 is disposed at a position corresponding to the outlet section of the peripheral wall of the scroll casing. In this embodiment, when the volute 112 is divided into a first portion adjacent to the volute tongue section and a second portion adjacent to the outlet section along the direction of airflow in its volute air channel, the radial plate member 141 and the axial plate member 142 of each set of connecting plate members may be fixedly connected to the first portion and the second portion of the volute 112, respectively. The central axes of the radial plates 141 and the axial plates 142 of each set of connection plates, which extend in the radial direction of the impeller 111 of its corresponding centrifugal fan 110, are preferably arranged symmetrically with respect to a radial central plane of the impeller 111 (radial central plane refers to a central plane perpendicular to the rotation axis of the impeller 111) in order to improve the stability of the centrifugal fan. For example, in the embodiment of fig. 1-6, the number of radial plates 141 in each set of connecting plates is four and the number of axial plates 142 is two. Four of the radial plates 141 and two of the axial plates 142 are symmetrically disposed on both lateral sides of the centrifugal fan 110, respectively. In the embodiment of fig. 7 to 10, the number of radial plates 141 in each set of connecting plates is five, and the number of axial plates 142 is one. Four of the radial plate members 141 are disposed at positions corresponding to the volute sections of the volute circumferential wall and are symmetrical with respect to the radial center plane of the centrifugal fan 110, and one radial plate member 141 and one axial plate member 142 are disposed at positions corresponding to the outlet sections of the volute circumferential wall and are respectively located on both lateral sides of the centrifugal fan 110, and their central axes extending in the radial direction of the impellers 111 of their corresponding centrifugal fans 110 are symmetrical with respect to the radial center plane of the centrifugal fan 110. In other embodiments, a plurality of radial plates 141 and at least one axial plate 142 may also be disposed on each lateral side of the volute 112.

In some preferred embodiments of the present invention, the fan bracket may be composed of a first bracket member 121 and a second bracket member 122 to facilitate the installation of the centrifugal fan 110. The first and second bracket members 121 and 122 are disposed to be joinable along the joint surface to form a receiving space for receiving the plurality of centrifugal fans 110, and define mounting openings 123 for exposing the fan air inlets and the fan air outlets. The splicing surface can be a plane, a step surface, a bending surface, a curved surface and the like. Referring to fig. 1 to 6, in some embodiments, the first and second bracket members 121 and 122 may be located at front and rear sides of the centrifugal fan 110, respectively. The split surfaces of the first and second bracket members 121 and 122 may be provided to extend in the longitudinal and lateral directions to facilitate production and transportation of the first and second bracket members 121 and 122. The rotation axes of the impellers 111 of the two centrifugal fans are located on the split surfaces so as to facilitate the installation of the centrifugal fans 110. The two lateral side plates of the first bracket member 121 may be provided with a plurality of front side split lugs 1261 extending in the lateral direction, respectively. The two lateral side plates of the second bracket member 122 may be provided with a plurality of rear side split lugs 1262 corresponding to the front side split lugs 1261, the plurality of front side split lugs 1261 being arranged to securely mate with the plurality of rear side split lugs 1262 to fixedly split the first and second bracket members 121, 122. Preferably, at least one front mating lug 1261 on each lateral side of the centrifugal fan 110 has a rear surface that is disposed parallel to or intersects the mating surfaces of the first and second bracket members 121, 122 to improve the stability of the air moving assembly 100. In other words, when the first bracket member 121 and the second bracket member 122 are coupled to form a fan bracket, the front coupling lugs 1261 or the rear coupling lugs 1262 on both lateral sides of the centrifugal fan 110 are configured to restrict movement of the first bracket member 121 and the second bracket member 122 in a direction parallel to the coupling surfaces, thereby extending the service life of the fastener connecting the front coupling lugs 1261 and the rear coupling lugs 1262, further improving the stability of the air blowing assembly 100, and reducing vibration noise generated during operation of the centrifugal fan 110. In this embodiment, the number of the axial plates 142 in each set of connection plates may be an even number and symmetrically disposed at both lateral sides of the centrifugal fan 110, for example, two, four, six, etc., to improve the stability of the centrifugal fan 110 and reduce vibration noise.

FIG. 7 is a schematic block diagram of an air supply assembly 100 according to yet another embodiment of the present invention; FIG. 8 is a schematic exploded view of the air supply assembly 100 shown in FIG. 7; FIG. 9 is a schematic block diagram of an air supply assembly 100 according to yet another embodiment of the present invention; fig. 10 is a schematic exploded view of the air supply assembly 100 shown in fig. 9. Referring to fig. 7 to 10, in other embodiments, the first and second bracket members 121 and 122 may be located at both lateral sides of the centrifugal fan 110, respectively. The split surfaces of the first and second bracket members 121 and 122 may be provided to extend in the longitudinal direction and the front-rear direction to facilitate production and transportation of the first and second bracket members 121 and 122. The forward side plates of the first and second bracket members 121, 122 may each be provided with a plurality of forwardly extending front side split lugs 1261, and the rearward side plates of the first and second bracket members 121, 122 may each be provided with a plurality of rearwardly extending rear side split lugs 1262. The front side split lugs 1261 and the rear side split lugs 1262 of the first bracket member 121 are provided in secure connection with the front side split lugs 1261 and the rear side split lugs 1262 of the second bracket member 122, respectively, to secure the first bracket member 121 and the second bracket member 122 in split. Preferably, a surface of the at least one front side split lug 1261 of the first bracket member 121 facing the second bracket member 122 is disposed parallel to or intersects a split surface of the first bracket member 121 and the second bracket member 122, and a surface of the at least one rear side split lug 1262 of the first bracket member 121 facing the second bracket member 122 is disposed parallel to or intersects a split surface of the first bracket member 121 and the second bracket member 122 to improve stability of the air blowing assembly 100.

In some embodiments of the present invention, an air intake channel 128 may be disposed between each adjacent two centrifugal fans 110, where the air intake channel 128 is defined by a fan bracket and a peripheral wall of a volute of the adjacent two centrifugal fans 110 and is configured to direct air located on a rear side of the air supply assembly 100 around a front portion of the air supply assembly 100 such that the two centrifugal fans 110 may draw air from both lateral sides and a rear side of the fan bracket. Referring to fig. 1-3, in some embodiments, the air inlet of the air inlet channel 128 may be formed in a rear circumferential side plate of the fan bracket, and the air outlet of the air inlet channel 128 may be formed in two lateral circumferential side plates of the fan bracket, so that the centrifugal fan 110 may obtain the ambient air introduced through the air inlet channel 128. Specifically, in the embodiment in which the first bracket member 121 and the second bracket member 122 are respectively located on the front and rear sides of the centrifugal fan 110, the air inlet of the air inlet channel 128 may be opened at the rear side plate of the second bracket member 122, and the air outlet of the air inlet channel 128 may be opened at the lateral side plate of the first bracket member 121. Referring to fig. 7 and 8, in an embodiment in which the first and second bracket members 121 and 122 are respectively located at both lateral sides of the centrifugal fan 110, the rear side plates of the first and second bracket members 121 and 122 may be respectively opened with air inlet openings, and the air inlet of the air inlet channel 128 may be formed by splicing the air inlet openings of the first and second bracket members 121 and 122, and the air outlet of the air inlet channel 128 may be respectively opened at the lateral side plates of the first and second bracket members 121 and 122. The inner surface of the inlet opening of the inlet channel 128 in the longitudinal direction is preferably coplanar with the surfaces of the two rear side line segments facing the mirror symmetry planes of the two centrifugal fans 110. The inner surface of the air inlet channel 128 in the transverse direction is preferably coplanar with the inner surfaces of the two transverse circumferential side plates of the fan bracket. The projection of the outlet of the air inlet channel 128 in the longitudinal direction is entirely within the maximum cross-section of the fan inlet. The air outlet of the air inlet channel 128 is preferably provided with two inner surfaces in the longitudinal direction extending at equal intervals relative to the outer surfaces of the adjacent peripheral walls of the volute, so as to reduce the wind resistance of the air inlet channel 128 and improve the air volume of the air inlet channel 128. The inner surface of the inlet opening of the inlet channel 128 in the longitudinal direction is not coplanar (coincident) with the surface of the rib 124 facing the mirror symmetry plane of the two centrifugal fans 110 to ensure structural strength of the fan support.

Referring to fig. 4 to 6, in other embodiments, the air inlet of the air inlet channel 128 may be formed in the rear circumferential side plate of the fan bracket, and the air outlet of the air inlet channel 128 may be formed in the front circumferential side plate of the fan bracket, so as to reduce the resistance of the ambient air flowing in the air inlet channel 128. Specifically, in the embodiment in which the first bracket member 121 and the second bracket member 122 are respectively located on the front and rear sides of the centrifugal fan 110, the air inlet of the air inlet channel 128 may be opened at the rear side plate of the second bracket member 122, and the air outlet of the air inlet channel 128 may be opened at the front side plate of the first bracket member 121. Referring to fig. 9 and 10, in an embodiment in which the first and second bracket members 121 and 122 are respectively located at both lateral sides of the centrifugal fan 110, the rear side plates of the first and second bracket members 121 and 122 may be respectively opened with an air inlet opening and an air outlet opening, the air inlet of the air inlet channel 128 may be formed by splicing the air inlet openings of the first and second bracket members 121 and 122, and the air outlet of the air inlet channel 128 may be formed by splicing the air outlet openings of the first and second bracket members 121 and 122. The inner surfaces of the air inlet and outlet of the air inlet channel 128 in the longitudinal direction are preferably coplanar with the surfaces of the two rear side linear sections and the two front side linear sections, respectively, facing the mirror symmetry planes of the two centrifugal fans 110. The inner surfaces of the air inlet and the air outlet of the air inlet channel 128 in the transverse direction are preferably coplanar with the inner surfaces of the two transverse circumferential side plates of the fan bracket, so that the wind resistance of the air inlet channel 128 is reduced, and the wind quantity of the air inlet channel 128 is improved.

The air supply assembly 100 may also include two air guide channels 130. The channel air inlets of the two air guide channels 130 may be configured to respectively interface with the fan air outlets of the two centrifugal fans 110 and extend in a forward arc-shape in a direction away from the symmetry plane of the two centrifugal fans 110 to receive and guide the air flow from the two centrifugal fans 110 forward. The air guide path 130 is preferably provided to be gradually extended from rear to front to increase the air supply distance of the air supply assembly 100. Referring to fig. 1 and 6, in some embodiments, the outer walls of the front and rear sides of each air guide channel 130 may have a plurality of longitudinal mounting tabs 132 extending in a direction toward the symmetry plane of the two centrifugal fans 110, each longitudinal mounting tab 132 being provided with a mounting hole. The peripheral wall of the volute of the centrifugal fan 110 may be correspondingly provided with a plurality of mounting posts 113, and the mounting holes of the plurality of longitudinal mounting tabs 132 may be respectively configured to be fastened with the plurality of mounting posts 113, so as to fixedly connect the air guide channel 130 with the centrifugal fan 110. The longitudinal end plate of the fan bracket may be provided with a plurality of avoidance grooves, and the longitudinal mounting tabs 132 may be configured to pass through the avoidance grooves to fasten the mounting holes thereon to the corresponding mounting posts 113. Referring to fig. 7 to 10, in other embodiments, the front side outer wall of each air guide channel 130 may have a plurality of longitudinal mounting tabs 132 extending in a direction toward the symmetry plane of the two centrifugal fans 110, and the plurality of longitudinal mounting tabs 132 may be provided in fixed connection with the front circumferential side plate of the fan bracket. The rear outer wall of each air guide channel 130 has a plurality of rearward mounting tabs 133 extending rearward, and the plurality of rearward mounting tabs 133 may be provided in fixed connection with the portion of the longitudinal end plate located rearward of the mounting opening 123. In some preferred embodiments, lateral side outer walls of each of the wind guide channels 130 may have wedge-shaped guide protrusions 131 that are downwardly divergent. The surface of the wedge-shaped guide protrusion 131 facing the extension axis of the air guide passage 130 may be configured to be matable with the volute sidewall of the centrifugal fan 110 to facilitate the installation and positioning of the air guide passage 130.

Based on the air supply assembly 100 of any of the foregoing embodiments, the present invention may further provide a cabinet air conditioner indoor unit 200. Fig. 11 is a schematic cross-sectional view of a cabinet air-conditioner indoor unit 200 according to one embodiment of the invention; fig. 12 is a schematic exploded view of the indoor unit 200 of the cabinet air conditioner shown in fig. 11. Referring to fig. 11 and 12, the cabinet air conditioner indoor unit 200 includes a cabinet, and an air blowing assembly 100 and an indoor heat exchanger 220 provided in the cabinet. Specifically, the casing is provided with a casing air inlet 2111 and a plurality of casing air outlets. The plurality of centrifugal fans of the air supply assembly 100 are configured to draw in ambient air from the surrounding environment of the cabinet air intake 2111 and to cause the ambient air to flow toward the plurality of cabinet air outlets, respectively. The indoor heat exchanger 220 is disposed on an air intake flow path between the cabinet air intake 2111 and the plurality of centrifugal fans so that the ambient air entering through the cabinet air intake 2111 exchanges heat with the indoor heat exchanger 220.

In an embodiment with two centrifugal fans 110, the housing air inlet 2111 may be formed in a rear housing of the housing, the housing air outlet may include an upper air outlet 2121 and a lower air outlet 2122 located below the upper air outlet 2121, and the upper air outlet 2121 and the lower air outlet 2122 are both formed in the front panel 212. Referring to fig. 12, to facilitate installation of the air supply assembly 100 and the indoor heat exchanger 220, the rear case may be composed of a circumferential housing 211, a top plate 213, and a bottom plate 214. The two centrifugal fans 110 are configured to draw ambient air from the surrounding environment of the cabinet intake 2111 and to force the ambient air to flow toward the upper and lower outlets 2121, 2122 of the front panel 212, respectively. In some embodiments, the indoor heat exchanger 220 may have a "U" shape in cross section and be disposed around the rear side and lateral sides of the air moving assembly 100. The two lateral side plates and the rear side plate of the casing are provided with casing air inlets 2111 to increase the air intake of the air supply assembly 100 and avoid waste of heat or cold generated by the indoor heat exchanger 220. In this embodiment, the blower assembly 100 having the air inlet passage 128 is preferably used to reduce the wind resistance of the blower assembly 100. In other embodiments, the cross-section of the indoor heat exchanger 220 may be "V" shaped. The number of the indoor heat exchangers 220 may be two, and the two indoor heat exchangers 220 may be disposed at both lateral sides of the air supply assembly 100, respectively. The bending angle of the V-shaped indoor heat exchanger 220 is 110 ° to 140 °, for example 110 °, 120 °, 130 ° or 140 °, and the V-shaped indoor heat exchanger 220 adopting the bending angle in the range can improve heat exchange efficiency of the heat exchanger and ambient air flowing through the heat exchanger, thereby improving heating or cooling efficiency to the indoor environment. In this embodiment, the blower assembly 100 without the air inlet channel 128 is preferably used to avoid ambient air from entering the interior of the centrifugal fan 110 without exchanging heat with the indoor heat exchanger 220. The housing intake 2111 may be provided only on two lateral side plates of the housing, or may be provided on two lateral side plates and a rear side plate of the housing, so as to improve the air supply amount of the air supply assembly 100. In the present invention, the cabinet air inlets 2111 located at both lateral side plates of the cabinet may be provided at the rear of the lateral side plates to improve the aesthetic appearance of the cabinet air conditioner indoor unit 200.

Referring to fig. 11-12, in some preferred embodiments, the cabinet air conditioner indoor unit 200 may further include a water pan 230. The water pan 230 has a concave cavity opened upward for collecting condensed water flowing down from the indoor heat exchanger 220. The circumferential side wall of the recessed cavity of the water tray 230 (the side wall combined with the bottom wall) may be provided in fixed connection with the cabinet. The indoor heat exchanger 220 may be disposed above the water pan 230, and the projection of the indoor heat exchanger 220 on the horizontal plane is completely within the range defined by the cavity, so that all the condensed water left from the indoor heat exchanger 220 flows into the water pan 230, thereby avoiding the condensed water from polluting the indoor environment.

The cabinet air conditioner indoor unit 200 may further include a weather strip 240 positioned above the water pan 230. The indoor heat exchanger 220 may be disposed in a space formed by sandwiching the wind deflector 240 and the water pan 230, and an upper end surface and a lower end surface of the indoor heat exchanger 220 are respectively in contact fit with a lower surface of the wind deflector 240 and a bottom wall of the cavity. The projection of the cabinet intake 2111 on the vertical plane may be entirely between the wind deflector 240 and the water pan 230 so that all of the ambient air drawn from the cabinet intake 2111 exchanges heat with the indoor heat exchanger 220. In some preferred embodiments, the bottom wall of the cavity and the lower surface of the wind deflector 240 may be provided with a plurality of stoppers, respectively. The plurality of stoppers are provided to extend in a direction toward the indoor heat exchanger 220 and to be engaged with an outer surface of the indoor heat exchanger 220, so as to facilitate installation and positioning of the indoor heat exchanger 220 and the wind deflector 240, and to restrict movement of the indoor heat exchanger 220 in a horizontal direction.

In some preferred embodiments, the rear bottom end of the air supply assembly 100 may be fixed on the water tray 230, so that the overall structure of the indoor unit 200 of the cabinet air conditioner is more compact and stable, the occupied space of the indoor unit 200 of the cabinet air conditioner is reduced, and the user experience is improved. The water tray 230 may include a water receiving portion 231 for collecting condensed water flowing down from the indoor heat exchanger 220 and a supporting portion 232 for supporting the air supply assembly 100. The water receiving part 231 has a concave cavity opened upward. The recess may include a first water receiving section extending in a lateral direction of the cabinet and a second water receiving section extending forward from lateral both side ends of the first water receiving section. The support portion 232 may be disposed to extend horizontally forward from the front side outer wall of the first water receiving section, and the rear bottom end of the air supply assembly 100 is fixed to the support portion 232. The bottom surface of the support part 232 may be provided with a plurality of ribs extending in the front-rear direction and connected with the water receiving part 231 to improve the structural strength of the water receiving tray 230. To facilitate the mounting and positioning of the air supply assembly 100, the circumferential side walls of the recess toward the vertical central axis of the cabinet may be configured to mate with the outer walls of the air guide channels 130. The circumferential side walls of the recess facing the vertical central axis of the cabinet may be provided with a dimension in the vertical direction that is larger than the dimension in the vertical direction of the other circumferential side walls of the recess.

The cabinet air conditioner indoor unit 200 may further include two structural supports 250 extending in a vertical direction. Two structural supports 250 may be provided to connect the front lateral end of the air moving assembly 100 with the cabinet to improve the stability of the air moving assembly 100. Specifically, each structural support 250 may include a front side assembly securing section and a rear side assembly securing section, a connecting section connecting the front side assembly securing section and the rear side assembly securing section, and two chassis securing sections. The front side assembly fixing section and the rear side assembly fixing section may be disposed to extend in a lateral direction of the cabinet and to be symmetrical with respect to an imaginary plane extending in the lateral and vertical directions for fixedly connecting with the fan bracket. The two chassis fixing sections may be arranged to extend from the outer ends of the front side assembly fixing section and the rear side assembly fixing section, respectively, in a direction away from the imaginary plane for fixed connection with the lateral side plates of the rear housing. The fan bracket may be provided with two extension portions 127 extending outwardly in the lateral direction from lateral both side ends of the front circumferential side plate thereof, respectively, to be fixedly connected with the two front side assembly fixing sections, so as to facilitate the installation and the removal of the air supply assembly 100. In some preferred embodiments, the structural support 250 may also include an upper cuff and a lower cuff. The upper and lower turn-ups may be disposed to extend horizontally from the upper and lower ends of the connection section in a direction toward the vertical central plane of the cabinet in the front-rear direction, respectively, and are disposed to be fixedly connected with the top plate 213 and the bottom plate 214 of the rear cabinet, respectively, so as to improve the stability of the air blowing assembly 100. The front end of the water tray 230 may be fixedly connected to the two structural supports 250 to improve stability of the water tray 230, thereby improving stability of the air supply assembly 100 and reducing vibration noise. In other embodiments, the cabinet air conditioner indoor unit 200 may further include a plurality of sheet metal parts. The plurality of sheet metal parts are provided to connect the front lateral end portion of the air blowing assembly 100 and the two front assembly fixing sections, so that the air blowing assembly 100 is manufactured and transported.

Preferably, the operation modes of the cabinet air conditioner indoor unit 200 may include a default mode, a mute mode, and an efficient mode. The two centrifugal fans 110 are configured in a default mode to turn off the centrifugal fan 110 located at the upper side and turn on the centrifugal fan 110 located at the lower side when the indoor heat exchanger 220 is in a heating state; when the indoor heat exchanger 220 is in a refrigerating state, the centrifugal fan 110 positioned on the upper side is started, the centrifugal fan 110 positioned on the lower side is closed, and the characteristics of upward flow of hot air flow and downward flow of cold air flow are utilized, so that efficient and uniform air-out heat exchange is effectively realized, and the comfort level of a user is improved. In the silent mode, the two centrifugal fans 110 are configured to reduce the rotational speed of the impeller 111 by 20 to 40%, for example, 20%, 30% or 40% on the basis of the default mode. In the high efficiency mode, the two centrifugal fans 110 are configured to operate synchronously at a set rotational speed.

According to the cabinet air conditioner indoor unit 200, the two centrifugal fans 110 are arranged in the machine shell, and the two centrifugal fans 110 are configured such that only the lower centrifugal fan 110 works when the indoor heat exchanger 220 heats, and only the upper centrifugal fan 110 works when the indoor heat exchanger 220 cools, so that the cooling and heating efficiency is improved, the indoor temperature is more uniform, and the comfort level of a user is improved. Further, the inventor of the present application creatively accommodates all the plurality of air supply fans in the accommodation space defined in the fan bracket by comprehensively analyzing vibration parameters generated when the impeller 111 of the centrifugal fan 110 works, and ingeniously adopts a specific form of connecting plate to fix the centrifugal fan 110 and the fan bracket as an integrated component and then installs the integrated component in the casing, so that the whole machine structure is more stable and reliable, not only can the vibration be aggravated and the strong noise be generated due to the rise of the center of gravity of the whole machine, but also the vibration of the whole machine is weakened and the noise is reduced.

By now it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described herein in detail, many other variations or modifications of the invention consistent with the principles of the invention may be directly ascertained or inferred from the present disclosure without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and deemed to cover all such other variations or modifications.

Claims (8)

1. An air supply assembly, comprising:

a plurality of centrifugal fans longitudinally distributed; and

a fan bracket defining therein an accommodation space for accommodating the plurality of centrifugal fans; wherein the method comprises the steps of

The fan bracket is provided with a plurality of mounting openings penetrating through the fan bracket along the transverse direction, the inner walls of the mounting openings are respectively matched with the peripheral walls of the volutes of the centrifugal fans, and the fan air inlet and the fan air outlet of each centrifugal fan are exposed; it is characterized in that the method comprises the steps of,

an air inlet channel is arranged between every two adjacent centrifugal fans and is configured to guide air positioned at the rear side of the fan bracket to the periphery of the front part of the fan bracket so that the plurality of centrifugal fans can acquire air from the two lateral sides and the rear side of the fan bracket at the same time;

the number of the fan air inlets of each centrifugal fan is two, and the two fan air inlets are respectively arranged on the two volute side walls of the volute to improve the air quantity of the air supply assembly; and is also provided with

The fan bracket is formed by encircling four opposite circumferential side plates and two longitudinal end plates which are respectively combined with the longitudinal two ends of the four circumferential side plates at the circumferential end parts, so that the air supply assembly is convenient to install and transport; wherein,,

an air inlet of the air inlet channel is formed in a rear circumferential side plate of the fan bracket;

the air outlet of the air inlet channel is arranged on two transverse circumferential side plates of the fan bracket or on the front circumferential side plate of the fan bracket.

2. The air supply assembly of claim 1, wherein the air supply assembly comprises,

the number of the centrifugal fans is two;

the two centrifugal fans are respectively arranged at the two longitudinal ends of the fan bracket and are in mirror symmetry relative to the central plane of the fan bracket, which is perpendicular to the longitudinal direction; and is also provided with

The installation openings are arranged so that fan air outlets of the two centrifugal fans are respectively exposed on the two longitudinal end plates.

3. The air supply assembly of claim 1, wherein the air supply assembly comprises,

the inner surface of fan support is provided with two strengthening ribs of inwards extending to improve the intensity of fan support and reduce vibration noise.

4. A blower assembly according to claim 3, wherein each of the ribs includes:

the front side line-shaped section is arranged to extend along the transverse direction and is connected with the front circumferential side plate and the two transverse circumferential side plates of the fan bracket; and

and the rear side line-shaped section is arranged to extend along the transverse direction and is connected with the rear circumferential side plate and the two transverse circumferential side plates of the fan bracket.

5. The air moving assembly according to claim 4, wherein,

the projection of the front side linear section in the transverse direction is positioned at a position where the distance between the inner wall of the mounting opening and the front circumferential side plate in the front-rear direction is shortest;

the projection of the rear side line segment in the lateral direction is located at a position where the inner wall of the mounting opening is shortest in distance from the rear circumferential side plate in the front-rear direction.

6. The air moving assembly according to claim 4, wherein,

when the air inlet of the air inlet channel is formed in the rear circumferential side plate of the fan bracket, and the air outlet of the air inlet channel is formed in the two transverse circumferential side plates of the fan bracket:

the air inlets of the air inlet channels are arranged in such a way that the longitudinal inner surfaces of the air inlets are respectively coplanar with the surfaces of the rear side line-shaped sections, which face the mirror symmetry planes of the two centrifugal fans, and the transverse inner surfaces of the air inlets are coplanar with the inner surfaces of the two transverse circumferential side plates, so that the wind resistance of the air inlet channels is reduced, and the air quantity of the air inlet channels is improved;

the air outlet of the air inlet channel is arranged in such a way that two inner surfaces of the air inlet channel in the longitudinal direction extend at equal intervals relative to the outer surfaces of the adjacent volute peripheral walls respectively, so that the centrifugal fan can acquire air guided out of the air inlet channel.

7. The air moving assembly according to claim 4, wherein,

when the air inlet of the air inlet channel is formed in the rear circumferential side plate of the fan support, the air inlet of the air inlet channel is formed in the front circumferential side plate of the fan support, and the air inlet and the air outlet of the air inlet channel are formed in the following manner:

the longitudinal inner surfaces of the centrifugal fans are respectively coplanar with the surfaces of the rear side line-shaped sections, which face the mirror symmetry planes of the two centrifugal fans;

the inner surfaces of the two transverse circumferential side plates are coplanar to reduce wind resistance of the air inlet channel and improve air quantity of the air inlet channel.

8. A cabinet air conditioner indoor unit, comprising:

the shell is provided with a shell air inlet and a plurality of shell air outlets;

the air supply assembly of any one of claims 1-7 disposed within the chassis, and the plurality of centrifugal fans configured to draw in ambient air from an ambient environment of the chassis air intake and to cause ambient air to flow toward the plurality of chassis air outlets, respectively; and

the indoor heat exchanger is arranged in the shell and is positioned on an air inlet flow path between the shell air inlet and the plurality of centrifugal fans, so that the ambient air entering through the shell air inlet exchanges heat with the indoor heat exchanger.

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