CN218511030U - Fan coiler and air conditioning system - Google Patents

Abstract

The utility model discloses a fan coiler and air conditioning system, fan coiler includes: the air conditioner comprises a shell assembly, a fan assembly, an indoor heat exchanger and a supporting piece, wherein an air outlet is formed in the front side of the shell assembly; the fan assembly is arranged in the shell assembly; the indoor heat exchanger is arranged in the shell assembly and is adjacent to the air outlet; the support piece is arranged on one side, close to the air outlet, of the indoor heat exchanger, the support piece is abutted to one side, close to the air outlet, of the indoor heat exchanger so as to support the indoor heat exchanger, the upper end of the support piece is abutted to or connected with the top of the machine shell assembly, and the lower end of the support piece is abutted to or connected with the bottom of the machine shell assembly. According to the utility model discloses fan coiler, support piece can provide the support for indoor heat exchanger and casing subassembly, and support piece can avoid indoor heat exchanger atress to warp with the bottom that the external force that indoor heat exchanger received transmitted casing subassembly to the heat exchange efficiency of indoor heat exchanger can be guaranteed to can avoid producing the noise in the indoor heat exchanger use.

Description

Fan coiler and air conditioning system

Technical Field

The utility model belongs to the technical field of the air conditioning technique and specifically relates to a fan coiler and air conditioning system are related to.

Background

The indoor heat exchanger is an important component part in the air pipe coiler, and the fan coiler is easily extruded in the transportation process, so that the indoor heat exchanger is deformed, the heat exchange efficiency is influenced by the deformation of the indoor heat exchanger, and the noise of the indoor heat exchanger in the use process is high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. For this reason, an object of the utility model is to provide a fan coiler, through setting up support piece and indoor heat exchanger butt, and support piece's upper end and casing subassembly's top butt or being connected, support piece's lower extreme and casing subassembly's bottom butt or being connected, support piece can provide the support for indoor heat exchanger and casing subassembly, can prevent that fan coiler warp extrusion indoor heat exchanger in the transportation casing subassembly, support piece also can transmit the bottom of casing subassembly with the external force that indoor heat exchanger received, avoid indoor heat exchanger atress to warp, can guarantee indoor heat exchanger's heat exchange efficiency, and can avoid indoor heat exchanger noise generation in the use.

The utility model discloses still provide an air conditioning system who has above-mentioned fan coiler.

According to the utility model discloses fan coiler of first aspect embodiment includes: the front side of the machine shell component is provided with an air outlet; the fan assembly is arranged in the shell assembly; the indoor heat exchanger is arranged in the shell assembly and is adjacent to the air outlet; the support piece is arranged on one side, close to the air outlet, of the indoor heat exchanger, the support piece is abutted against one side, close to the air outlet, of the indoor heat exchanger to support the indoor heat exchanger, the upper end of the support piece is abutted against or connected with the top of the machine shell assembly, and the lower end of the support piece is abutted against or connected with the bottom of the machine shell assembly.

According to the utility model discloses fan coiler, through support piece and indoor heat exchanger butt, support piece can provide the support for indoor heat exchanger, and support piece's upper end and casing subassembly's top butt or be connected, support piece's lower extreme and casing subassembly's bottom butt or be connected, support piece can provide the support for casing subassembly, can prevent that fan coiler warp extrusion indoor heat exchanger at the transportation casing subassembly, support piece also can transmit the bottom of casing subassembly with the external force that indoor heat exchanger received, avoid indoor heat exchanger atress to warp, can guarantee indoor heat exchanger's heat exchange efficiency, and can avoid indoor heat exchanger noise production in the use.

According to some embodiments of the invention, the support member is detachably connected to the housing assembly.

According to some embodiments of the present invention, the support member is one and located at a middle portion of the indoor heat exchanger in a length direction; or the supporting pieces are arranged at intervals along the length direction of the indoor heat exchanger.

According to the utility model discloses a some embodiments, indoor heat exchanger's orientation the face of air outlet is the air-out face, support piece with the face of air-out face butt is the holding surface, the holding surface with the air-out face all inclines to extend backward in the direction from top to bottom, the holding surface with the laminating of air-out face.

According to some embodiments of the invention, the entire support member is an elastomer, the support member is a rubber member or a foam member; or, the support piece includes support piece body and elastic layer, the hardness of support piece body is greater than the hardness of elastic layer, the elastic layer is located support piece's orientation one side of indoor heat exchanger and with indoor heat exchanger butt, the elastic layer is rubber layer, foam blanket, silica gel layer or sponge layer.

According to some embodiments of the utility model, the casing subassembly includes casing and water collector, the fan subassembly is located in the casing, indoor heat exchanger is located the casing with in the space that the water collector was injectd, the water collector is located indoor heat exchanger's bottom surface, the front edge of the roof of casing with inject between the front edge of water collector the air outlet, the roof the front side of indoor heat exchanger and the water collector inject with the air-out wind channel that the air outlet is relative and the intercommunication, support piece's at least part is located in the air-out wind channel, support piece's upper end with roof butt or connection, support piece's lower extreme with water collector butt or connection.

According to some optional embodiments of the utility model, support piece is the elastomer, support piece in the up-and-down direction with the roof the diapire interference fit of water collector, just support piece in the front-and-back direction with the preceding lateral wall of water collector and indoor heat exchanger interference fit.

In some optional embodiments of the utility model, the support piece is flat block-shaped, the outer peripheral face of the support piece includes a supporting surface and a fitting surface, the supporting surface with the indoor heat exchanger butt, the fitting surface with the preceding lateral wall butt cooperation of water collector, the fitting surface forms into the V-arrangement.

According to some optional embodiments of the utility model, support piece include the support piece body and connect in the elastic layer of support piece body, the support piece body includes the first support gusset that extends along upper and lower direction, the upper end of first support gusset is formed with the connection turn-ups, connect the turn-ups with the roof links to each other, the lower extreme of first support gusset with the preceding lateral wall of water collector links to each other, the elastic layer with the indoor heat exchanger butt.

In some optional embodiments of the present invention, the support member body further includes a connecting plate and a second support rib plate, the connecting plate is connected between the second support rib plate and the first support rib plate, and the elastic layer is disposed on the second support rib plate.

In some optional embodiments of the present invention, the support member is substantially in the shape of a right triangle, and the first support rib plate constitutes a vertical side of the support member.

According to the utility model discloses air conditioning system of second aspect embodiment includes: according to the utility model discloses fan coiler of above-mentioned first aspect embodiment.

According to the utility model discloses air conditioning system, through setting up foretell fan coiler, support piece and indoor heat exchanger butt, support piece can provide the support for indoor heat exchanger, and support piece's upper end and casing subassembly's top butt or be connected, support piece's lower extreme and casing subassembly's bottom butt or be connected, support piece can provide the support for casing subassembly, can prevent that fan coiler warp extrusion indoor heat exchanger in the transportation casing subassembly, support piece also can transmit the bottom of casing subassembly with the external force that indoor heat exchanger received, avoid indoor heat exchanger atress to warp, can guarantee indoor heat exchanger's heat exchange efficiency, and can avoid the indoor heat exchanger noise production in the use.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of a fan coiler according to a first embodiment of the present invention;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a schematic view of the support member of FIG. 1;

fig. 4 is a schematic structural view of a supporting member according to a second embodiment of the present invention;

fig. 5 is a schematic view of a fan coiler according to a third embodiment of the present invention;

fig. 6 is a schematic structural view of the supporter in fig. 5.

Reference numerals:

100. a fan coiler;

1. a housing assembly; 10. a housing; 11. a top plate; 12. a water pan; 13. an air outlet duct; 14. an air outlet;

2. an indoor heat exchanger; 20. an air outlet surface;

3. a support member; 30. a support member body; 31. a first support rib plate; 310. connecting the flanging; 311. a first fixing hole; 312. a third fixing hole; 313. reinforcing the flanging; 314. a convex hull; 32. a second support rib plate; 33. a connecting plate; 34. an elastic layer; 35. a support surface; 36. a mating surface.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The fan coiler 100 according to an embodiment of the present invention is described below with reference to the drawings.

Referring to fig. 1 and 5, a fan coiler 100 according to an embodiment of the present invention includes: casing subassembly 1, fan subassembly, indoor heat exchanger 2 and support piece 3, the front side of casing subassembly 1 has air outlet 14, and in casing subassembly 1 was located to the fan subassembly, indoor heat exchanger 2 located in casing subassembly 1, and indoor heat exchanger 2 is close to air outlet 14 for holistic compact structure does not occupy too much space. Indoor heat exchanger 2 and fan subassembly can be arranged along the fore-and-aft direction, and indoor heat exchanger 2 is located the front side of fan subassembly, and air outlet 14 can extend along left right direction. The fan subassembly can drive air and blow to indoor heat exchanger 2, and the air blows in indoor through air outlet 14 after the heat transfer with indoor heat exchanger 2 to lower the temperature or heat up indoor.

Referring to fig. 1 and 5, the supporter 3 is disposed at a side of the indoor heat exchanger 2 adjacent to the air outlet 14, and the supporter 3 abuts against a side of the indoor heat exchanger 2 adjacent to the air outlet 14, so that the indoor heat exchanger 2 can be supported. The fan coiler 100 is easy to receive downward stress in the transportation process, and the stress is transmitted to the indoor heat exchanger 2 through the casing assembly 1, so that the indoor heat exchanger 2 in the fan coiler 100 is easy to deform. Supporting the indoor heat exchanger 2 through the supporting piece 3 can prevent the deformation of the indoor heat exchanger 2 caused by the impact of external force on the fan coiler 100 in the transportation process, and can ensure the heat exchange efficiency of the indoor heat exchanger 2. For example, the stay 3 is located on the front side of the indoor heat exchanger 2, and the stay 3 abuts on the front side of the indoor heat exchanger 2.

Referring to fig. 1, 2 and 5, the upper end of the supporting member 3 may abut against the top of the casing assembly 1, or the upper end of the supporting member 3 may be connected to the top of the casing assembly 1, so that the supporting member 3 may support the top of the casing assembly 1, and the top of the casing assembly 1 is prevented from deforming downwards under the action of other stresses, thereby avoiding extruding the indoor heat exchanger 2. According to the above, support piece 3 butt indoor heat exchanger 2 and for indoor heat exchanger 2 provides the support, lower extreme through support piece 3 can with the bottom butt of casing subassembly 1, or, support piece 3's lower extreme also can be connected with the bottom of casing subassembly 1, support piece 3 can pass through support piece 3 with the external force that indoor heat exchanger 2 received and from top to bottom transmit the bottom for casing subassembly 1, prevent that indoor heat exchanger 2 from warping in the transportation, thereby can guarantee indoor heat exchanger 2's heat exchange efficiency, and can avoid indoor heat exchanger 2 to produce the noise in the use.

For example, according to the utility model discloses a some embodiments, indoor heat exchanger 2 inclines the setting backward in the direction from top to bottom, and indoor heat exchanger 2 sets up for the slope of casing subassembly 1, or, indoor heat exchanger 2 sets up for the flow direction slope of air to can guarantee that indoor heat exchanger 2 has great heat transfer area, can fully contact with the air, guarantee indoor heat exchanger 2's heat exchange efficiency.

According to the utility model discloses fan coiler 100, through support piece 3 and 2 butts of indoor heat exchanger, support piece 3 can provide the support for indoor heat exchanger 2, and support piece 3's upper end and casing subassembly 1's top butt or be connected, support piece 3's lower extreme and casing subassembly 1's bottom butt or be connected, support piece 3 can provide the support for casing subassembly 1, can prevent that fan coiler 100 is in the transportation casing subassembly 1 deformation extrusion indoor heat exchanger 2, support piece 3 also can transmit the bottom of casing subassembly 1 with the external force that indoor heat exchanger 2 received, avoid indoor heat exchanger 2 atress to warp, can guarantee indoor heat exchanger 2's heat exchange efficiency, and can avoid indoor heat exchanger 2 in-process noise production.

According to some embodiments of the utility model, support piece 3 detachably connects in casing subassembly 1, makes things convenient for support piece 3's dismouting, makes support piece 3's use more nimble. When the fan coiler 100 is transported, the supporting piece 3 can be assembled on the shell assembly 1, so that the indoor heat exchanger 2 is prevented from deforming under stress; when the fan coiler 100 is put into use, the support 3 can be removed from the casing assembly 1.

Referring to fig. 1 and 5, according to some embodiments of the present invention, the support member 3 is one, and the support member 3 is located at a middle portion of the indoor heat exchanger 2 in a length direction. It is fixed that the both sides of indoor heat exchanger 2 have the sideboard usually, and the stress is out of shape more easily along the length direction's of indoor heat exchanger 2 middle part, through locating support piece 3 in indoor heat exchanger 2's length direction's middle part, can make support piece 3 support in indoor heat exchanger 2 yielding region for support piece 3 has better supporting effect, can guarantee simultaneously that the left and right sides atress is even. For example, the length direction of the indoor heat exchanger 2 refers to the left-right direction in the drawing, and the support 3 may be located at the middle of the outlet port 14 in the left-right direction.

Or, support piece 3 can be a plurality of, and a plurality of support pieces 3 are arranged along indoor heat exchanger 2's length direction interval for support piece 3 can provide the support for indoor heat exchanger 2 along length direction's a plurality of positions homoenergetic, and the supporting effect is better, can avoid indoor heat exchanger 2 to warp at the in-process of transportation better, can further guarantee indoor heat exchanger 2's heat exchange efficiency. For example, the number of the support members 3 may be three, and the three support members 3 are arranged at intervals in the left-right direction.

In the present invention, "a plurality" means two or more.

Referring to fig. 1, 3 and 5, according to some embodiments of the present invention, the surface of indoor heat exchanger 2 facing air outlet 14 is air outlet surface 20, and support piece 3 is support surface 35 with the surface of air outlet surface 20 butt, and support surface 35 and air outlet surface 20 all incline backward and extend in the direction from top to bottom, and support surface 35 and air outlet surface 20 are laminated, for example, support surface 35 and air outlet surface 20 parallel arrangement. Through the laminating of holding surface 35 and air-out face 20 for indoor heat exchanger 2 can be supported better to support piece 3, and can avoid rubbing each other between holding surface 35 and the air-out face 20.

Referring to fig. 5 and 6, according to some embodiments of the present invention, the whole support 3 is an elastic body, and the support 3 is a rubber piece or a foam piece, so that the support 3 can provide a supporting function for the indoor heat exchanger 2, and prevent the indoor heat exchanger 2 from deforming, and the support 3 can provide a soft support for the indoor heat exchanger 2, and can prevent the support 3 from scraping the indoor heat exchanger 2 during assembly or use. The elastic body support 3 can absorb part of the impact force when deformed by the force, and the elastic body support 3 is easy to manufacture and low in cost. For example, the support member 3 may be made of pearl wool or honeycomb cardboard, and the whole support member 3 may be an integral molding member.

Referring to fig. 4, or, the support 3 includes a support body 30 and an elastic layer 34, the hardness of the support body 30 is greater than that of the elastic layer 34, and the structural strength of the support body 30 is stronger, so that the top and the bottom of the cabinet assembly 1 can be conveniently supported, the cabinet assembly 1 is prevented from deforming and extruding the indoor heat exchanger 2, and a supporting function can be provided for the indoor heat exchanger 2, so that the indoor heat exchanger 2 is prevented from deforming, for example, the support body 30 may be a metal member. The elastic layer 34 is arranged on one side (for example, the rear side) of the support piece 3 facing the indoor heat exchanger 2, the elastic layer 34 is abutted to the indoor heat exchanger 2, the elastic layer 34 can be a rubber layer, a foam layer, a silica gel layer or a sponge layer, the elastic layer 34 is arranged, the support piece 3 provides soft support for the indoor heat exchanger 2, and the support piece 3 can be prevented from being scratched on the indoor heat exchanger 2 due to overlarge rigidity. For example, the elastic layer 34 may be adhered to a side of the supporter body 30 facing the indoor heat exchanger 2.

Referring to fig. 1 and 5, according to some embodiments of the present invention, the casing assembly 1 includes a casing 10 and a water pan 12, the fan assembly is located in the casing 10, the indoor heat exchanger 2 is located in the space defined by the casing 10 and the water pan 12, so that the whole structure is compact, does not occupy too much space, and the water pan 12 is located on the bottom surface of the indoor heat exchanger 2, and can be used for collecting the condensed water generated by the indoor heat exchanger 2. An air outlet 14 is defined between the front edge of the top plate 11 of the machine shell 10 and the front edge of the water pan 12, an air outlet duct 13 is defined between the top plate 11, the front side of the indoor heat exchanger 2 and the water pan 12, and the air outlet duct 13 is opposite to and communicated with the air outlet 14, so that air circulation is facilitated. The air outlet 14 can be located the front side of air outlet duct 13, and air outlet 14 and indoor intercommunication, fan assembly can drive the air in casing 10 and blow to indoor heat exchanger 2, blow into air outlet duct 13 after air and the heat transfer of indoor heat exchanger 2 to blow in indoor through air outlet 14, in order to lower the temperature or heat up indoor.

With continued reference to fig. 1, 2 and 5, at least part of the support 3 is located within the outlet duct 13. Support piece 3's upper end and 11 butts of roof or be connected for support piece 3 can play the supporting role for roof 11, prevent that roof 11 from warping and extruding indoor heat exchanger 2, support piece 3's lower extreme and 12 butts of water collector or be connected, simultaneously, support piece 3 also with 2 butts of indoor heat exchanger, thereby, support piece 3 can transmit the external force that receives in 2 transportation of indoor heat exchanger for water collector 12, prevent 2 deformations of indoor heat exchanger, in order to guarantee 2 heat exchange efficiency of indoor heat exchanger.

Referring to fig. 5, according to some optional embodiments of the present invention, support piece 3 is an elastic body, support piece 3 has an upper side and a top plate 11 in interference fit, support piece 3 has an upper side and a bottom wall in interference fit with water collector 12, and support piece 3 has a front side and a front side wall in interference fit with water collector 12, support piece 3 has a rear side and an indoor heat exchanger 2 in interference fit, so that support piece 3 can be limited in air outlet duct 13, and it is ensured that support piece 3 and top plate 11, water collector 12 and indoor heat exchanger 2 are reliably matched with each other. And support piece 3 can support roof 11, water collector 12 and indoor heat exchanger 2 simultaneously for transmission channel of power is unblocked, receives decurrent exogenic action when fan coiler 100 in the transportation, and support piece 3 can transmit the effort that indoor heat exchanger 2 received for water collector 12, avoids indoor heat exchanger 2 atress to warp, can guarantee indoor heat exchanger 2's heat exchange efficiency. For example, the rear side of the stay 3 abuts against the air outlet surface 20 of the indoor heat exchanger 2.

For example, the supporting member 3 may be a rubber member or a foam member, the supporting member 3 may be an integrally formed member, which is convenient to form and simple to manufacture, and the supporting member 3 of the elastic body has low cost, and redundant assembling members and connecting processes may be omitted.

Referring to fig. 5 and 6, in some optional embodiments of the present invention, the supporting member 3 may be a flat block, and the supporting member 3 has a simple structure and is easy to process. Support piece 3's outer peripheral face includes holding surface 35 and fitting surface 36, holding surface 35 and 2 butts of indoor heat exchanger, can provide the supporting role for indoor heat exchanger 2, fitting surface 36 cooperates with the preceding lateral wall butt of water collector 12, can transmit the effort that indoor heat exchanger 2 received in the transportation for water collector 12 through support piece 3, prevent that indoor heat exchanger 2 is out of shape, can guarantee indoor heat exchanger 2's heat exchange efficiency, also can avoid producing the noise in the 2 use of indoor heat exchanger. The matching surface 36 is formed into a V shape and is used for matching with the shape of the front side wall of the water pan 12, so that the matching surface 36 and the water pan 12 can be completely attached, and the support piece 3 can better support the indoor heat exchanger 2. The support 3 is of a relatively simple construction, easy to manufacture and convenient to assemble.

Referring to fig. 2-4, according to some alternative embodiments of the present invention, the supporting member 3 may include a supporting member body 30 and an elastic layer 34, the elastic layer 34 is connected to the supporting member body 30, for example, the hardness of the supporting member body 30 may be greater than that of the elastic layer 34, and the elastic layer 34 may be connected to the supporting member body 30 by means of adhesion. The support body 30 includes a first support rib plate 31, the first support rib plate 31 extends in the up-down direction, the upper end of the first support rib plate 31 is formed with a connection flange 310, the connection flange 310 is connected with the top plate 11, the connection flange 310 can be connected to the upper side of the top plate 11, and the connection flange 310 can also be connected to the lower side of the top plate 11. The lower end of the first supporting rib plate 31 is connected with the front side wall of the water pan 12, the elastic layer 34 is abutted to the indoor heat exchanger 2, the supporting piece body 30 can conveniently support the top and the bottom of the casing assembly 1, the casing assembly 1 is prevented from deforming and extruding the indoor heat exchanger 2, the elastic layer 34 provides a supporting effect for the indoor heat exchanger 2, the indoor heat exchanger 2 is prevented from deforming, and the elastic layer 34 can be prevented from scratching the indoor heat exchanger 2. For example, the support body 30 may be a metal piece, and the elastic layer 34 may be a rubber layer, a foam layer, a silicone layer, or a sponge layer.

For example, referring to fig. 2, the connecting flange 310 is formed with a first fixing hole 311, the front edge of the top plate 11 is formed with a second fixing hole, the second fixing hole corresponds to the first fixing hole 311, and a fastening member is adapted to be inserted through the first fixing hole 311 and the second fixing hole, so that the upper end of the first supporting rib plate 31 can be fixedly connected to the top plate 11 of the housing 10. The lower extreme of first support gusset 31 can be formed with a third fixed orifices 312, and the preceding lateral wall of water collector 12 is formed with a fourth fixed orifices, and the fastener is suitable for wearing to locate third fixed orifices 312 and fourth fixed orifices to can be with the lower extreme and the water collector 12 fixed connection of first support gusset 31.

Alternatively, the supporting members 3 may be a plurality of supporting members arranged at intervals in the left-right direction, the upper end of the first supporting rib plate 31 of each supporting member 3 is respectively formed with a first fixing hole 311, and the lower end of the first supporting rib plate 31 of each supporting member 3 is respectively formed with a third fixing hole 312. The front edge of the top plate 11 extends along the left-right direction, then the front edge of the top plate 11 can be formed with a plurality of second fixing holes arranged at intervals along the left-right direction, the number of the second fixing holes is the same as that of the first fixing holes 311, and the fasteners can penetrate through the second fixing holes and the first fixing holes 311 so as to fixedly connect the upper ends of the plurality of first supporting rib plates 31 to the top plate 11 of the casing 10. The preceding lateral wall of water collector 12 can be formed with a plurality of fourth fixed orificess of arranging along left right direction interval, and the quantity of fourth fixed orifices is the same and the one-to-one with the quantity of third fixed orifices 312, and the fastener can wear to locate fourth fixed orifices and first fixed orifices 311 to can be with the preceding lateral wall fixed connection of a plurality of first support muscle boards 31 and water collector 12.

For example, referring to fig. 2 and 3, according to some embodiments of the present invention, a reinforcing flange 313 and a convex hull 314 are further formed on the first support rib plate 31, the reinforcing flange 313 is formed at the right end of the first support rib plate 31, and the reinforcing flange 313 extends in the up-down direction; the convex hull 314 is formed in the middle of the first support rib plate 31 in the left-right direction, the convex hull 314 protrudes toward a direction away from the indoor heat exchanger 2, and the convex hull 314 extends in the up-down direction. The reinforcing flange 313 and the convex hull 314 both contribute to enhancing the structural strength of the support member body 30, so as to enhance the support strength of the support member 3 for the machine shell 10 and the water pan 12, and ensure the reliability and stability of the support member 3.

For example, referring to fig. 4, the first support rib plate 31 is formed with two reinforcing flanges 313 and a convex hull 314, the two reinforcing flanges 313 are respectively formed at the left and right ends of the first support rib plate 31, and both the two reinforcing flanges 313 extend in the up-down direction; the convex hull 314 is formed in the middle of the first support rib plate 31 in the left-right direction, the convex hull 314 protrudes toward a direction away from the indoor heat exchanger 2, and the convex hull 314 extends in the up-down direction. Elastic layer 34 pastes in one side of first support gusset 31 towards indoor heat exchanger 2, and elastic layer 34 is right angled triangle, and the vertical limit of elastic layer 34 is connected with first support gusset 31, and the hypotenuse of elastic layer 34 is laminated with the air-out face 20 of indoor heat exchanger 2.

Referring to fig. 2 and 3, in some optional embodiments of the present invention, the support member body 30 further includes a connecting plate 33 and a second support rib plate 32, the connecting plate 33 is connected between the second support rib plate 32 and the first support rib plate 31, and the connecting plate 33 helps to improve the support strength of the first support rib plate 31 and the second support rib plate 32. The elastic layer 34 is arranged on the second support rib plate 32, so that the indoor heat exchanger 2 can be prevented from being subjected to an overlarge rigidity process of the second support rib plate 32, and the elastic layer 34 can be connected to one side, facing the indoor heat exchanger 2, of the second support rib plate 32, so that the elastic layer 34 is abutted to the indoor heat exchanger 2. For example, the second support rib plate 32 is located at the rear side of the first support rib plate 31, the second support rib plate 32 extends towards the rear in the direction from top to bottom, and the surface of the second support rib plate 32 facing the indoor heat exchanger 2 is parallel to the air outlet surface 20 of the indoor heat exchanger 2. Through connecting plate 33 between second support gusset 32 and first support gusset 31, the external force that second support gusset 32 can indoor heat exchanger 2 receive transmits for first support gusset 31 through connecting plate 33, and then transmits for water collector 12, can prevent that indoor heat exchanger 2 from warping because of receiving external force in the transportation, can guarantee indoor heat exchanger 2's heat exchange efficiency.

Referring to fig. 3 and 4, in some optional embodiments of the present invention, the supporting member 3 is substantially a right triangle, the structure of the supporting member 3 is relatively stable, the first supporting rib 31 constitutes a vertical edge of the supporting member 3 for supporting the top plate 11 and the water receiving tray 12 of the housing 10, and the elastic layer 34 may constitute a hypotenuse of the supporting member 3, and abut against a surface of the indoor heat exchanger 2 facing the air outlet 14, so as to support the indoor heat exchanger 2.

A fan coiler 100 according to some embodiments of the present invention is described below with reference to fig. 1-6.

In the first embodiment, the first step is,

specifically, referring to fig. 1 to 3, the fan coiler 100 includes: casing subassembly 1, fan subassembly, indoor heat exchanger 2 and support piece 3, the front side of casing subassembly 1 has air outlet 14, and in casing subassembly 1 was located to the fan subassembly, indoor heat exchanger 2 located casing subassembly 1, and indoor heat exchanger 2 is located the front side of fan subassembly, and indoor heat exchanger 2 is close to air outlet 14, and indoor heat exchanger 2's the face towards air outlet 14 is air-out face 20.

The casing assembly 1 comprises a casing 10 and a water pan 12, the fan assembly is located in the casing 10, the indoor heat exchanger 2 is located in a space defined by the casing 10 and the water pan 12, and the water pan 12 is located on the bottom surface of the indoor heat exchanger 2. An air outlet 14 is defined between the front edge of the top plate 11 and the front edge of the water pan 12 of the casing 10, an air outlet duct 13 is defined between the top plate 11, the front side of the indoor heat exchanger 2 and the water pan 12, the air outlet duct 13 is opposite to and communicated with the air outlet 14, and the air outlet 14 is located on the front side of the air outlet duct 13.

Indoor heat exchanger 2 inclines the setting backward in the direction from top to bottom, and indoor heat exchanger 2 sets up for casing subassembly 1 slope, perhaps says so, indoor heat exchanger 2 sets up for the flow direction slope of air, can guarantee that indoor heat exchanger 2 has great heat transfer area, can fully contact with the air, guarantees indoor heat exchanger 2's heat exchange efficiency.

The front side of indoor heat exchanger 2 is equipped with a support piece 3, and support piece 3 is located air outlet duct 13 and follows the middle part of left and right directions, and support piece 3 detachably connects in casing subassembly 1. The support 3 comprises a support body 30 and an elastic layer 34, the elastic layer 34 is connected to the support body 30, the support body 30 is a metal piece, and the elastic layer 34 is a rubber layer, a foam layer, a silica gel layer or a sponge layer. The support member body 30 includes a first support rib plate 31, a second support rib plate 32 and a connecting plate 33, the first support rib plate 31 extends in the up-down direction, the support member 3 is substantially in the shape of a right triangle, and the first support rib plate 31 constitutes a vertical side of the support member 3. The second support rib plates 32 are located at the rear side of the first support rib plates 31, the second support rib plates 32 extend towards the backward direction in the direction from top to bottom, the surfaces of the second support rib plates 32 facing the indoor heat exchanger 2 are arranged in parallel with the air outlet surface 20 of the indoor heat exchanger 2, and the second support rib plates 32 form the inclined sides of a triangle. The surface of the second support rib plate 32 facing the indoor heat exchanger 2 is a support surface 35, the support surface 35 and the air outlet surface 20 are inclined towards the rear in the direction from top to bottom, and the support surface 35 is attached to the air outlet surface 20. The elastic layer 34 is connected to the supporting surface 35, the connecting plate 33 is connected between the second supporting rib plate 32 and the first supporting rib plate 31, and the connecting plate 33 is connected to the right side of the second supporting rib plate 32 and the right side of the first supporting rib plate 31.

The upper end of the first supporting rib plate 31 is formed with a connecting flange 310, the connecting flange 310 is formed with a first fixing hole 311, the front edge of the top plate 11 is formed with a second fixing hole, the second fixing hole corresponds to the first fixing hole 311, and the fastening member is adapted to penetrate through the first fixing hole 311 and the second fixing hole, so as to fixedly connect the upper end of the first supporting rib plate 31 with the top plate 11 of the housing 10. The lower extreme of first support muscle board 31 is formed with a third fixed orifices 312, and the preceding lateral wall of water collector 12 is formed with a fourth fixed orifices, and the fastener is suitable for wearing to locate third fixed orifices 312 and fourth fixed orifices to with the lower extreme and the water collector 12 fixed connection of first support muscle board 31. The elastic layer 34 abuts against the air outlet surface 20 of the indoor heat exchanger 2, so that the indoor heat exchanger 2 can be supported.

A reinforcing flange 313 and a convex hull 314 are also formed on the first supporting rib plate 31, the reinforcing flange 313 is formed at the right end of the first supporting rib plate 31, and the reinforcing flange 313 extends along the up-down direction; the convex hull 314 is formed in the middle of the first support rib plate 31 in the left-right direction, the convex hull 314 protrudes toward the direction away from the indoor heat exchanger 2, and the convex hull 314 extends in the up-down direction, so that the reinforcing flange 313 and the convex hull 314 can enhance the structural strength of the support member body 30.

In the second embodiment, the first embodiment of the method,

referring to fig. 4, the present embodiment has substantially the same structure as the first embodiment, wherein the same reference numerals are used for the same components, and the difference is only that: support piece 3 includes support piece body 30 and elastic layer 34, and support piece body 30 includes first support gusset 31, is formed with two on the first support gusset 31 and strengthens turn-ups 313, and two are strengthened turn-ups 313 and are formed at both ends about first support gusset 31 respectively, and elastic layer 34 pastes in one side that is close to indoor heat exchanger 2 of first support gusset 31, and elastic layer 34 is triangle-shaped. The bevel edge of the elastic layer 34 is a supporting surface 35 and can be abutted to the air outlet surface 20 of the indoor heat exchanger 2, so that a supporting effect can be provided for the indoor heat exchanger 2, the indoor heat exchanger 2 is prevented from being deformed, the support 3 provides soft support for the indoor heat exchanger 2, and the support 3 can be prevented from being scratched on the indoor heat exchanger 2 due to overlarge rigidity.

In the third embodiment, the first step is that,

referring to fig. 5 and 6, the present embodiment has substantially the same structure as the first and second embodiments, wherein the same reference numerals are used for the same components, and the difference is only that: the structure of the supporting member 3 of the present embodiment is different from that of the first and second embodiments. The supporting member 3 of the present embodiment is an integrally formed member, the whole supporting member 3 is an elastic body, and the supporting member 3 is a rubber member, a foam member, a pearl wool or a honeycomb cardboard. Support piece 3 is flat massive, and support piece 3's outer peripheral face includes holding surface 35 and fitting surface 36, and holding surface 35 and the 20 butt of the air-out face of indoor heat exchanger 2 can provide the supporting role for indoor heat exchanger 2, and fitting surface 36 forms into the V-arrangement, and fitting surface 36 cooperates with the preceding lateral wall butt of defrosting tray 12. The supporting piece 3 can transmit the external force received by the indoor heat exchanger 2 to the water receiving tray 12, so that the indoor heat exchanger 2 is prevented from deforming due to stress, and the heat exchange efficiency of the indoor heat exchanger 2 is ensured.

According to the utility model discloses air conditioning system of second aspect embodiment includes: according to the utility model discloses fan coiler 100 of the embodiment of the above-mentioned first aspect.

According to the utility model discloses air conditioning system, through setting up foretell fan coiler 100, support piece 3 and 2 butts of indoor heat exchanger, support piece 3 can provide the support for indoor heat exchanger 2, and support piece 3's upper end and casing subassembly 1's top butt or be connected, support piece 3's lower extreme and casing subassembly 1's bottom butt or be connected, support piece 3 can provide the support for casing subassembly 1, can prevent that fan coiler 100 is 1 out of shape extrusion indoor heat exchanger 2 in the transportation casing subassembly, support piece 3 also can transmit the bottom of casing subassembly 1 with the external force that indoor heat exchanger 2 received, avoid indoor heat exchanger 2 atress to warp, can guarantee the heat exchange efficiency of indoor heat exchanger 2, and can avoid producing the noise in the indoor heat exchanger 2 use.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the description of the invention, the first feature being "on", "above" and "above" the second feature includes the first feature being directly above and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature.

In the description of the present specification, reference to the description of "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (12)

1. A fan coiler is characterized by comprising:

the front side of the machine shell component is provided with an air outlet;

the fan assembly is arranged in the shell assembly;

the indoor heat exchanger is arranged in the shell assembly and is adjacent to the air outlet;

the support piece is arranged on one side, close to the air outlet, of the indoor heat exchanger, the support piece is abutted against one side, close to the air outlet, of the indoor heat exchanger so as to support the indoor heat exchanger, the upper end of the support piece is abutted against or connected with the top of the machine shell assembly, and the lower end of the support piece is abutted against or connected with the bottom of the machine shell assembly.

2. The wind coiler of claim 1, wherein the support is removably attached to the enclosure assembly.

3. The fan coiler of claim 1, wherein the support member is one and is located in the middle of the indoor heat exchanger in the length direction; or the supporting pieces are arranged at intervals along the length direction of the indoor heat exchanger.

4. The fan coiler of claim 1, wherein a face of the indoor heat exchanger facing the air outlet is an air outlet face, a face of the support abutting against the air outlet face is a support face, the support face and the air outlet face both extend in a backward inclined manner in a direction from top to bottom, and the support face is attached to the air outlet face.

5. The wind coiler of claim 1, wherein the entire support is an elastomer, and the support is a rubber or foam piece; or, the support piece includes support piece body and elastic layer, the hardness of support piece body is greater than the hardness of elastic layer, the elastic layer is located support piece's orientation one side of indoor heat exchanger and with indoor heat exchanger butt, the elastic layer is rubber layer, foam blanket, silica gel layer or sponge layer.

6. The fan coiler of claim 1, wherein the housing assembly comprises a housing and a water pan, the fan assembly is positioned in the housing, the indoor heat exchanger is positioned in a space defined by the housing and the water pan, the water pan is positioned on a bottom surface of the indoor heat exchanger, the air outlet is defined between a front edge of a top plate of the housing and a front edge of the water pan, the top plate, a front side of the indoor heat exchanger and the water pan define an air outlet duct opposite to and communicating with the air outlet, at least a portion of the support member is positioned in the air outlet duct, an upper end of the support member abuts or is connected with the top plate, and a lower end of the support member abuts or is connected with the water pan.

7. The fan coiler of claim 6, wherein the support is an elastic body, the support is in interference fit with the top plate and the bottom wall of the water pan in the up-down direction, and the support is in interference fit with the front side wall of the water pan and the indoor heat exchanger in the front-back direction.

8. The fan coiler of claim 7, wherein the support member is in a flat block shape, the outer peripheral surface of the support member comprises a support surface and a matching surface, the support surface is abutted with the indoor heat exchanger, the matching surface is abutted with the front side wall of the water collector, and the matching surface is formed in a V shape.

9. The fan coiler of claim 6, wherein the support comprises a support body and an elastic layer connected to the support body, the support body comprises a first support rib plate extending in the vertical direction, a connection flange is formed at the upper end of the first support rib plate and connected with the top plate, the lower end of the first support rib plate is connected with the front side wall of the water pan, and the elastic layer is abutted to the indoor heat exchanger.

10. The fan coiler of claim 9, wherein the support member body further comprises a connecting plate and a second support rib plate, the connecting plate is connected between the second support rib plate and the first support rib plate, and the elastic layer is arranged on the second support rib plate.

11. The wind coiler of claim 9 wherein the support member is generally in the shape of a right triangle, the first support web forming a vertical side of the support member.

12. An air conditioning system, comprising: the wind coiler of any of claims 1-11.

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