CN108731133B - Outdoor unit mounting structure, outdoor unit and air conditioner - Google Patents

Abstract

The invention aims to provide an outdoor unit installation structure, an outdoor unit and an air conditioner, which comprise an upper corner frame and a lower corner frame, wherein opposite folded edges are respectively arranged on the upper corner frame and the lower corner frame, a multi-layer condenser is limited through the folded edges, inclined fixing sheets are arranged on the folded edges, the inclined fixing sheets are connected with a left side plate in a matched manner, the connection of the condenser and the left side plate is realized, and meanwhile, heat exchange holes are formed in the folded edges. According to the invention, the bonding area between the upper corner frame and the condenser is increased through the first folded edge and the second folded edge, the first folded edge and the second folded edge limit the thickness direction of the condenser, so that a plurality of condensers are not easy to scatter, meanwhile, the inclined fixing sheets are adopted, the traditional screw fastening is abandoned, the technical process of screwing is reduced, the positioning is directly formed in the vertical direction and the left-right direction, and the scattered frames caused by vibration generated in the operation process of the air conditioner are prevented.

Description

Outdoor unit mounting structure, outdoor unit and air conditioner

Technical Field

The present invention relates to the field of air conditioners, and more particularly, to an outdoor unit installation structure, an outdoor unit and an air conditioner.

Background

At present, the condenser of the outdoor unit of the air conditioner is fixed by arranging a fixing plate on the side edge of the condenser, and indirectly fixing the condenser through the fixing plate and the left side plate or the right side plate of the outdoor unit. However, the fixing of the condenser is performed through the end plate, and although the condenser can be fixed on the left side plate or the right side plate, the connection mode is not stable, and especially when a plurality of condensers are arranged, after the fixing of the end plate, when vibration occurs during air conditioner transportation, the plurality of condensers can be scattered or shake, so that the installation is unstable.

Disclosure of Invention

In view of the above, the present invention is directed to an outdoor unit mounting structure, an outdoor unit and an air conditioner, so as to solve the problem of unstable fixation of a plurality of condensers.

In order to achieve the above purpose, the technical scheme of the invention is realized as follows:

an outdoor unit installation structure, comprising:

the upper corner frame comprises a first substrate, wherein the first substrate is of a rectangular structure, a first folded edge, a second folded edge and a third folded edge are respectively arranged on the edges of any three sides of the first substrate, and the first folded edge, the second folded edge and the third folded edge are perpendicular to the first substrate and are positioned on the same side of the first substrate; the first folded edge and the second folded edge are parallel;

the heat exchange device comprises a condenser, a first substrate, a second substrate, a heat exchange tube, a first waist-shaped hole, a second waist-shaped hole, a U-shaped structure and a heat exchange tube, wherein the first waist-shaped hole is arranged on the first substrate, the parallel sides of the first waist-shaped hole are in the up-down direction, the position of the first waist-shaped hole on the first substrate is consistent with the position of the heat exchange tube on the side face of the condenser, the first waist-shaped hole is sized to enable the heat exchange tube to be inserted, and the U-shaped structure extending out of the heat exchange tube is in clamping fit with the first waist-shaped hole;

the distance between the first flange and the second flange is equal to the thickness d1 of the condenser; the first folding edge and the second folding edge clamp the condenser, the third folding edge is in contact with the upper surface of the condenser, the first substrate is in contact with the side surface of the condenser, which is provided with a heat exchange tube, extending out of the condenser, and the first folding edge is in contact with the left end surface of the condenser.

Preferably, the outdoor unit installation structure further comprises:

the lower corner frame comprises a second substrate, wherein the second substrate is of a rectangular structure, a fourth folded edge, a fifth folded edge and a sixth folded edge are arranged on the edge of any three sides of the second substrate, and the fourth folded edge, the fifth folded edge and the sixth folded edge are perpendicular to the second substrate and are positioned on the same side of the second substrate; the fourth folded edge is parallel to the fifth folded edge;

the second substrate is provided with a plurality of second kidney-shaped holes, the parallel sides of the second kidney-shaped holes are in the up-down direction, the positions of the second kidney-shaped holes on the second substrate are consistent with the positions of the heat exchange tubes on the side face of the condenser, the second kidney-shaped holes are sized to enable the heat exchange tubes to be inserted, and the U-shaped structures of the heat exchange tubes, which extend out, are in clamping fit with the second kidney-shaped holes;

the distance between the fourth fold and the fifth fold is equal to the thickness d1 of the condenser; the fourth folding edge and the fifth folding edge are used for clamping the condenser, the sixth folding edge is in contact with the lower surface of the condenser, the second substrate is in contact with the side surface of the condenser, which is provided with the heat exchange tube, and the fourth folding edge is in contact with the left end surface of the condenser.

Preferably, a plurality of first heat exchange holes are formed in the first folded edge and the second folded edge; the shape of the first heat exchange hole is an inclined rectangular shape.

Preferably, a plurality of second heat exchange holes are formed in the fourth folded edge and the fifth folded edge; the shape of the second heat exchange hole is an inclined rectangular shape.

Preferably, a first fixing piece is disposed at one edge of the rectangle of any one of the first heat exchange holes, and the first fixing piece is perpendicular to the first folded edge.

Preferably, a second fixing piece is disposed at one edge of the rectangle of any one of the second heat exchange holes, and the second fixing piece is a structure with the edge of the second heat exchange hole extending outwards perpendicularly.

Preferably, a first rectangular notch is formed in the first substrate, one side of the first rectangular notch coincides with the first folding edge, a first mounting plate is arranged at the edge of the first rectangular notch coinciding with the first folding edge, the first mounting plate is parallel to the first folding edge, a first clamping hole is formed in the first mounting plate, the first clamping hole is a kidney-shaped hole, and the direction of the parallel edge of the first clamping hole is the up-down direction.

Preferably, a second rectangular notch is formed in the second substrate, one side of the second rectangular notch coincides with the fourth folded edge, a second mounting plate is arranged at the edge of the second rectangular notch coinciding with the fourth folded edge, the second mounting plate is parallel to the fourth folded edge, a second clamping hole is formed in the second mounting plate, the second clamping hole is a kidney-shaped hole, and the direction of the parallel edge of the second clamping hole is the up-down direction.

Preferably, the edge of the first heat exchange hole where the first fixing piece is located is an edge close to the bevel edge of the first folded edge.

Compared with the prior art, the outdoor unit installation structure has the following advantages:

(1) The first folded edges and the second folded edges increase the attaching area between the upper corner frame and the condenser, and the first folded edges and the second folded edges limit the thickness direction of the condenser, so that a plurality of condensers are not easy to scatter. Through the cooperation of upper corner frame with lower corner frame is used the upper and lower position of condenser all fastens, makes the fixed more firm of a plurality of condensers.

(2) The fixing sheets are obliquely arranged, so that the traditional screw fastening is abandoned, the technical process of screwing is reduced, the positioning is directly formed in the vertical direction and the left-right direction, and the scattered frames caused by vibration generated in the operation process of the air conditioner are prevented; the condenser fixing device can realize the fixation of condensers with different lengths only by arranging positioning inclined holes matched with the first fixing piece and the second fixing piece at different positions on the left side plate.

(3) And the heat exchange holes on the folded edges are arranged, so that the direct contact area between the condenser and the outside is increased, and the heat dissipation of the condenser is quickened.

Another object of the present invention is to provide an outdoor unit having the above-mentioned outdoor unit installation structure.

The outdoor unit has the same advantages as those of the prior art, and will not be described in detail herein.

Another object of the present invention is to provide an air conditioner having the above-mentioned outdoor unit.

The air conditioner has the same advantages as the outdoor unit mounting structure or/and the outdoor unit relative to the prior art, and will not be described in detail herein.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention. In the drawings:

FIG. 1 is an isometric view of an upper corner bracket;

FIG. 2 is an isometric view of a lower corner bracket;

FIG. 3 is an isometric view of a condenser;

FIG. 4 is a schematic view of the left side plate;

FIG. 5 is an isometric view of a mid-mount;

FIG. 6 is an isometric view of a middle connector;

fig. 7 is a schematic view of an outdoor unit casing assembly structure;

FIG. 8 is a partial enlarged view of the positioning of the first and second card edges;

FIG. 9 is a partial enlarged view of the positioning of the second card edge and the second card hole;

fig. 10 is a schematic view of an overall assembly structure of an outdoor unit;

FIG. 11 is an enlarged view of a front panel, roof panel and wind barrier riser assembly;

fig. 12 is an isometric view of an outdoor unit with a beveled edge;

fig. 13 is a second perspective view of the outdoor unit with a bevel edge.

Reference numerals illustrate:

11-top cover plate, 111-top cover plate body, 112-second clamping edge, 113-first clamping edge, 118-eleventh folding edge, 119-fifteenth folding edge, 13-front panel, 135-first boss, 136-second connecting portion, 137-concave bottom, 138-second clamping hole, 139-sixteenth folding edge, 14-middle fixing frame, 141-seventh folding edge, 142-third heat exchanging hole, 144-third kidney-shaped hole, 145-eighth folding edge, 146-third base plate, 15-condenser, 151-first condenser, 152-second condenser, 153-heat exchanging tube, 16-upper corner frame, 161-first heat exchanging hole, 162-first fixing piece, 163-first kidney-shaped hole, 164-first folding edge, 165-third folding edge, 166-first base plate, 168-first clamping hole, 169-first mounting piece, 17-left side plate, 170-positioning inclined hole, 177-first connecting portion, 178-first clamping hole, 179-twelfth flange, 1791-thirteenth flange, 1792-fourteenth flange, 18-lower corner bracket, 181-second heat exchanging hole, 182-, 183-fourth flange, 184-fifth flange, 185-second base plate, 186-second kidney-shaped hole, 188-second mounting piece, 189-second clamping hole, 19-middle connecting piece, 191-ninth flange, 193-tenth flange, 194-fourth heat exchanging hole, 195-fourth base plate, 196-fourth mounting piece, 197-fourth mounting hole, 23-air blocking vertical plate, 2311-partition flange, 239-second boss.

Detailed Description

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

In addition, all directions or positional relationships mentioned in the embodiments of the present invention are positional relationships based on the drawings, and the "up-down, left-right, front-rear" coordinate system appearing in the drawings is merely for facilitating understanding of the present invention and simplifying the description, and does not imply that the apparatus or element referred to must have a specific orientation, and is not to be construed as limiting the present invention. For convenience of description, five surfaces constituting the casing of the outdoor unit of the air conditioner will be referred to as: the air conditioner comprises a chassis, a top cover plate, a front panel, a left side plate and a right side plate, wherein the front panel is a plate body where an air outlet of an air conditioner outdoor unit is positioned; the left side plate is a plate body on the left side of the front panel when the left side plate is right seen from the front panel of the air conditioner outdoor unit; the right side plate is a plate body on the right side of the front panel when the right side plate is right looking at the front panel of the air conditioner outdoor unit; the chassis is a plate body positioned at the bottom when the air conditioner outdoor unit is normally placed; the top cover plate is a plate body positioned at the top when the air conditioner outdoor unit is normally placed. The technical features and advantages of the present invention are described in more detail below with reference to the accompanying drawings.

Example 1

Note that the up-down direction and the left-right direction in the present embodiment are relative to the positions in fig. 1 to 3, and are limited to the present embodiment.

The present embodiment provides an outdoor unit installation structure, as shown in fig. 1 and 3, including:

the upper corner bracket 16 comprises a first base plate 166, wherein the first base plate 166 is of a rectangular structure, and the edges of any three sides of the first base plate 166 are respectively provided with a first folded edge 164, a second folded edge and a third folded edge 165; the first flange 164, the second flange and the third flange 165 are perpendicular to the first substrate 166 and are located on the same side of the first substrate 166; the first flange 164 and the second flange are parallel;

a plurality of first kidney-shaped holes 163 are formed in the first base plate 166, parallel sides of the first kidney-shaped holes 163 are in an up-down direction, positions of the first kidney-shaped holes 163 on the first base plate 166 correspond to positions of the heat exchange tubes 153 on the side surfaces of the condenser 15, the first kidney-shaped holes 163 are sized to enable the heat exchange tubes 153 to be inserted, and a U-shaped structure of the heat exchange tubes 153 extending out of the first kidney-shaped holes 163 is in clamping fit;

the distance between the first and second flanges 164, 15 is equal to the thickness d1 of the condenser 15; after the upper corner frame 16 is assembled with the condenser 15, the first folded edge 164 and the second folded edge clamp the condenser 15, the third folded edge 165 contacts with the upper surface of the condenser 15, the first base plate 166 contacts with the side surface of the condenser 15, from which the heat exchange tube 153 extends, and the first folded edge 164 contacts with the left end surface 1521 of the condenser 15.

The advantage of setting like this is that first hem 164 and second hem have increased the upper corner frame with laminating area between the condenser 15, first hem 164 and second hem are right the thickness direction of condenser 15 is spacing, makes the difficult frame that breaks out of the condenser group that a plurality of condensers cooperation formed.

Preferably, the first flange 164 and the second flange are opposite and have the same overall shape, the first flange 164 and the second flange are right triangle, and two sides of the right triangle are adjacent to the first substrate 166 and the third flange 165, respectively; the sharp angle of right triangle sets up the chamfer, removes the acute angle, prevents fish tail part or skin.

Preferably, the condenser 15 includes a first condenser 151 and a second condenser 152, and the first kidney-shaped holes 163 are arranged in two rows.

Preferably, the edge of the first kidney-shaped hole 163 is provided with an outward flange to prevent the heat exchange tube 153 from being scratched.

Example two

Note that the up-down direction and the left-right direction in the present embodiment are relative to the positions in fig. 1 to 3, and are limited to the present embodiment.

The difference from the above-described embodiment is that the outdoor unit installation structure in this embodiment, as shown in fig. 2 and 3, includes:

the lower corner frame 18 comprises a second substrate 185, wherein the second substrate 185 has a rectangular structure, a fourth folded edge 183, a fifth folded edge 184 and a sixth folded edge are arranged at the edges of any three sides of the second substrate 185, and the fourth folded edge 183, the fifth folded edge 184 and the sixth folded edge are perpendicular to the second substrate 185 and are positioned at the same side of the second substrate 185; the fourth edge 183 and the fifth edge 184 are parallel;

a plurality of second kidney-shaped holes 186 are formed in the second substrate 185, parallel sides of the second kidney-shaped holes 186 are in an up-down direction, positions of the second kidney-shaped holes 186 on the second substrate 185 are consistent with positions of the heat exchange tubes 153 on the side surfaces of the condenser 15, the second kidney-shaped holes 186 can enable the heat exchange tubes 153 to be inserted, and a U-shaped structure extending out of the heat exchange tubes 153 and the second kidney-shaped holes 186 form clamping fit;

the distance between the fourth edge 183 and the fifth edge 184 is equal to the thickness d1 of the condenser 15; the fourth flange 183 and the fifth flange 184 clamp the condenser 15, the sixth flange contacts the lower surface of the condenser 15, the second substrate 185 contacts the side surface of the condenser 15, from which the heat exchange tube 153 protrudes, and the fourth flange 183 contacts the left end surface 1521 of the condenser 15.

The advantage of this arrangement is that the upper corner bracket 16 and the lower corner bracket 18 are used in combination, so that the upper and lower parts of the condensers 15 are fastened, and the fixation of a plurality of condensers is more stable.

Preferably, the fourth edge 183 and the fifth edge 184 are opposite and have the same overall shape, the fourth edge 183 and the fifth edge 184 are right-angled triangles, and two right-angled sides of the right-angled triangle are adjacent to the second substrate 185 and the sixth edge, respectively; the sharp angle of right triangle sets up the chamfer, removes the acute angle, prevents fish tail part or skin.

Preferably, the condenser 15 includes a first condenser 151 and a second condenser 152, and the second kidney-shaped holes 186 are arranged in two rows.

Preferably, the edge of the second kidney-shaped hole 186 is provided with an outward flange to prevent the heat exchange tube 153 from being scratched.

Example III

The difference from the above embodiment is that the first flange 164 and the second flange are provided with a plurality of first heat exchange holes 161, and the shape of the first heat exchange holes 161 is circular, triangular or rectangular, so as to increase the direct contact area between the condenser 15 and the outside and accelerate the heat dissipation of the condenser 15.

The fourth flange 183 and the fifth flange 184 are provided with a plurality of second heat exchange holes 181, and the second heat exchange holes 181 are circular, triangular or rectangular, so as to increase the direct contact area between the condenser 15 and the outside and accelerate the heat dissipation of the condenser 15.

Preferably, as shown in fig. 1, the first heat exchange hole 161 is in an inclined rectangular shape.

Preferably, as shown in fig. 2, the second heat exchange hole 181 has an inclined rectangular shape.

Example IV

Note that the up-down direction and the left-right direction in the present embodiment are relative to the positions in fig. 1 to 3, and are limited to the present embodiment.

The difference from the above embodiment is that, as shown in fig. 1, the first heat exchange hole 161 is in an inclined rectangular shape, one edge of the rectangle of any one of the first heat exchange holes 161 on the first flange 164 is provided with a first fixing piece 162, and the first fixing piece 162 is perpendicular to the first flange 164.

As shown in fig. 2, the second heat exchange hole 181 is in an inclined rectangular shape, one edge of the rectangle of any one of the fourth folded edges 183 of the second heat exchange hole 181 is provided with a second fixing piece 182, and the second fixing piece 182 is perpendicular to the fourth folded edge 183.

The left side plate 17 is disposed outside the left end surface 1521 of the condenser 15, and a positioning inclined hole 170 matched with the first fixing plate 162 and the second fixing plate 182 is formed on the left side plate 17;

when the upper corner frame 16 and the lower corner frame 18 are mounted on the condenser 15, the first fixing piece 162 and the second fixing piece 182 are respectively inserted into the positioning inclined holes 170 of the left side plate 17 to form positioning, and meanwhile, the first fixing piece 162 and the second fixing piece 182 are turned over by 90 degrees to fasten the condenser 15 and the left side plate.

Preferably, the left side plate 17 is provided with a plurality of positioning inclined holes 170 along the same horizontal plane in the front-rear direction.

The advantage that sets up like this lies in, adopts the stationary blade that the slope set up, has abandoned traditional screw fastening, has reduced the technological process of beating the screw, and direct upper and lower direction and left and right directions all form the location, prevent the scattered frame that the vibration that the condenser produced in the air conditioner operation in-process leads to. The condenser fixing device can realize the fixation of condensers with different lengths only by arranging positioning inclined holes matched with the first fixing piece and the second fixing piece at different positions on the left side plate.

Preferably, the edge of the first heat exchange hole 161 where the first fixing piece 162 is located is an edge close to the oblique side of the first flange 164.

Preferably, the edge of the second heat exchange hole 181 where the second fixing piece 182 is located is an edge close to the oblique side of the fourth folded edge 183.

Example five

Note that the up-down direction and the left-right direction in the present embodiment are relative to the positions in fig. 1 to 3, and are limited to the present embodiment.

The difference from the above embodiment is that, as shown in fig. 1, a first rectangular notch is formed on the first substrate 166, one side of the first rectangular notch coincides with the first folded edge 164, a first mounting piece 169 is disposed at an edge of the first rectangular notch coinciding with the first folded edge 164, the first mounting piece 169 is parallel to the first folded edge 164, a first clamping hole 168 is disposed on the first mounting piece 169, the first clamping hole 168 is a kidney-shaped hole, and a direction of parallel edges of the first clamping hole 168 is an up-down direction.

As shown in fig. 2, a second rectangular notch is formed in the second substrate 185, one side of the second rectangular notch coincides with the fourth folded edge 183, a second mounting plate 188 is disposed at an edge of the second rectangular notch coinciding with the fourth folded edge 183, the second mounting plate 188 is parallel to the fourth folded edge 183, a second fastening hole 189 is disposed on the second mounting plate 188, the second fastening hole 189 is a kidney-shaped hole, and a direction of a parallel edge of the second fastening hole 189 is an up-down direction.

The advantage that sets up like this lies in, when last angle frame and lower angle frame install in the condenser, be connected with the left side board through the mounting plate, further strengthen fixed knot constructs, increased fixed knot structure's stability, offered waist shape hole, also be convenient for the regulation of screw position.

Example six

The difference from the above-described embodiment is that the outdoor unit installation structure in this embodiment, as shown in fig. 5, includes:

the middle fixing frame 14 comprises a third base plate 146, wherein the third base plate 146 is rectangular, the edge of the third base plate 146 is provided with a seventh folded edge 141 and an eighth folded edge 145, and the seventh folded edge 141 and the eighth folded edge 145 are perpendicular to the third base plate 146 and are positioned on the same side of the third base plate 146; the distance between the seventh fold 141 and the eighth fold 145 is equal to the thickness d1 of the condenser 15;

the seventh and eighth folds 141, 145 clamp the condenser 15, the third base plate 146 is in contact with the lower surface of the condenser 15, and the eighth fold 145 is in contact with the inner surface 1511 of the condenser 15.

The advantage of this arrangement is that the front and rear direction of the condenser is limited by the middle fixing frame 14, so that the condenser is not easy to scatter.

Preferably, a third rectangular notch is provided on the eighth flange 145, one side of the third rectangular notch coincides with the third substrate 146 is provided with a third mounting piece 143, and the third mounting piece 143 is perpendicular to the third substrate 146; the third mounting piece 143 is provided with a third kidney-shaped hole 144, and a parallel edge of the third kidney-shaped hole 144 is parallel to a plane where the eighth folded edge 145 is located. The advantage of this arrangement is that the third mounting plate 143 is fixed to the bottom plate of the air conditioner, thereby fixing the condenser 15 and preventing the condenser 15 from shaking in the front-rear direction; the waist-shaped holes are arranged, so that the adjustment of the screw position can be facilitated.

Preferably, the seventh flange 141 and the eighth flange 145 have a triangular, semicircular or rectangular shape, and the seventh flange 141 and the eighth flange 145 are provided with a third heat exchanging hole 142, and the third heat exchanging hole 142 has a triangular, circular or rectangular shape. The advantage of this arrangement is that the direct contact area between the condenser and the outside is increased, and the heat exchange convection is enhanced.

Example seven

The difference from the above-described embodiment is that the outdoor unit installation structure in this embodiment, as shown in fig. 6, includes:

the middle connecting piece 19 comprises a fourth base plate 195, a ninth folded edge 191 and a tenth folded edge 193, wherein the fourth base plate 195 is rectangular, the ninth folded edge 191 and the tenth folded edge 193 are respectively arranged at the edges of two opposite sides of the fourth base plate 195, and the ninth folded edge 191 and the tenth folded edge 193 are positioned on the same side of the fourth base plate 195 and are perpendicular to the fourth base plate 195; the distance between the ninth flange 191 and the tenth flange 193 is equal to the thickness d1 of the condenser 15;

the ninth and tenth flanges 191 and 193 clamp the condenser 15, the fourth base plate 195 contacts the upper surface of the condenser 15, and the ninth flange 191 contacts the inner surface 1511 of the condenser 15.

The advantage of this arrangement is that the condenser is limited in the fore-and-aft direction by the intermediate mount 14, preventing the condenser from falling apart.

Preferably, a fourth rectangular notch is provided on the ninth folded edge 191, one side of the fourth rectangular notch overlaps the fourth substrate 195, one side of the fourth rectangular notch overlapping the fourth substrate 195 is provided with a fourth mounting plate 196, and the fourth mounting plate 196 is perpendicular to the ninth folded edge 191; the fourth mounting plate 196 is provided with a fourth mounting hole 197, and the fourth mounting plate 196 is used for being connected with a motor bracket of the outdoor unit.

Preferably, the tenth flange 193 has a triangular, semicircular or rectangular shape, the tenth flange 193 is provided with a fourth heat exchanging hole 194, and the fourth heat exchanging hole 194 has a triangular, circular or rectangular shape. The advantage of this arrangement is that the direct contact area between the condenser and the outside is increased, and the heat exchange convection is enhanced.

Example eight

It should be noted that, in this embodiment, the vertical and horizontal directions are all shown in fig. 7, which is merely for convenience of description, and does not limit the product structure.

The present embodiment provides a housing connection structure, as shown in fig. 7 and 8, including:

top cover plate 11, comprising: the top cover body 111 is rectangular, an eleventh folded edge 118 is arranged at the edge of the top cover body 111, which is close to one side of the left side plate 17, the eleventh folded edge 118 is perpendicular to the top cover body 111, and the eleventh folded edge 118 is of a rectangular structure; a first clamping edge 113 is arranged on the edge, far away from one side of the top cover plate body, of the eleventh folding edge 118, and the first clamping edge 113 is perpendicular to the top cover plate body 111;

the left side plate 17 includes a left side plate body, the upper edge of the left side plate body is provided with a twelfth folded edge 179, the twelfth folded edge 179 presents a step structure, the twelfth folded edge 179 includes a thirteenth folded edge 1791 and a fourteenth folded edge 1792, the thirteenth folded edge 1791 and the fourteenth folded edge 1792 are two parallel sides of the twelfth folded edge 179, the thirteenth folded edge 1791 and the fourteenth folded edge 1792 are parallel to the left side plate body, and the fourteenth folded edge 1792 is close to the inside of the outdoor unit relative to the thirteenth folded edge 1791;

the thirteenth folding edge 1791 is connected with the left side plate body through a first connecting portion 177, the first connecting portion 177 is perpendicular to the thirteenth folding edge 1791, a first clamping hole 178 is formed in the first connecting portion 177, the first clamping hole 178 is consistent with the first clamping edge 113 in position, and the first clamping hole 178 enables the first clamping edge 113 to be inserted into and limited by the first clamping edge 113.

The arrangement has the advantages that the dislocation structure combining the thirteenth folded edge and the fourteenth folded edge is arranged, the first clamping hole is formed in the first connecting part, the top cover plate is not easy to shake after being installed through the matching of the first clamping hole and the first clamping edge, the connection stability is enhanced, and the outdoor unit is not easy to scatter when in severe vibration; simultaneously, the installation of lamina tecti is also convenient for to the setting of first card hole, and through the cooperation of first card limit and first card hole, carries out spacingly to lamina tecti, and the screw mounting hole of other positions on the lamina tecti of being convenient for aligns more easily.

Preferably, the thirteenth flange 1791 and the fourteenth flange 1792 are connected by an arcuate surface or a bevel. This has the advantage that the strength of the twelfth fold 179 is increased by the transition of the curved or beveled surfaces.

Preferably, the first clamping edge 113 is rectangular, triangular, semicircular or U-shaped.

Preferably, there are at least two first clamping edges 113, and the left side plate 17 is provided with the first clamping holes 178 matched with the first clamping edges 113.

Example nine

It should be noted that, in this embodiment, the vertical and horizontal directions are all shown in fig. 7, which is merely for convenience of description, and does not limit the product structure.

The difference from the above-described embodiment is that, as shown in fig. 7 and 9, the housing connection structure includes:

top cover plate 11, comprising: the top cover body 111 is rectangular, a fifteenth folded edge 119 is arranged at the edge of the top cover body 111, which is positioned on one side of the front panel 13, the fifteenth folded edge 119 is perpendicular to the top cover body 111, and the fifteenth folded edge 119 is of a rectangular structure; a second clamping edge 112 is arranged on the edge, far away from one side of the top cover plate body, of the fifteenth folded edge 119, and the second clamping edge 112 is perpendicular to the top cover plate body 111;

the front panel 13 includes a front panel body, the upper edge of the front panel body is provided with a sixteenth folded edge 139, the sixteenth folded edge 139 is parallel to the front panel body, the sixteenth folded edge 139 is provided with a concave portion that is concave toward the inside of the outdoor unit, the concave portion makes the sixteenth folded edge 139 present a step-shaped structure, and a concave bottom 137 of the concave portion is parallel to the sixteenth folded edge 139;

the concave bottom 137 is connected with the front panel body through a second connection portion 136, the second connection portion 136 is perpendicular to the front panel 13, a second clamping hole 138 is formed in the second connection portion 136, the second clamping hole 138 is consistent with the second clamping edge 112 in position, and the second clamping hole 138 enables the second clamping edge 112 to be inserted into and limited by the second clamping hole.

The advantage of setting like this lies in, uses through the cooperation of second card limit with first card limit, makes the lamina tecti all form spacingly in the position about, has further increased the stability of connection.

Preferably, the recessed bottom 137 and the sixteenth flange 139 are connected by an arcuate surface or a beveled surface. The advantage of this is that the strength of the sixteenth fold 139 is increased by the transition of the curved or beveled surfaces.

Preferably, the second clamping edge 112 is rectangular, triangular, semicircular or U-shaped.

Preferably, there are at least two second card edges 112, and the front panel 13 is provided with the second card holes 138 matching with the second card edges 112.

Examples ten

The difference from the above embodiment is that, as shown in fig. 10 and 11, a first boss 135 is provided on the sixteenth flange 139 toward the outside of the outdoor unit, and an eleventh through hole is provided on the first boss 135 for fastening a bolt.

The arrangement has the advantages that the top cover plate can be limited through the arrangement of the first boss, so that the gap between the top cover plate and the front panel is reduced; on the other hand, through the first card limit of bolt-up cooperation and second card limit, restrict the six direction degrees of freedom of lamina tecti, make the installation of lamina tecti more reliable.

Preferably, the first boss 135 has a thin-wall structure.

Preferably, the first boss 135 is at least one.

Example eleven

The difference from the above-described embodiment is that, as shown in fig. 10 and 11, the housing connection structure includes:

the front panel 13 comprises a front panel body, wherein a sixteenth folded edge 139 is arranged at the upper edge of the front panel body, the sixteenth folded edge 139 is parallel to the front panel body, a first boss 135 is arranged on the sixteenth folded edge 139 towards the outer side of the outdoor unit, and an eleventh through hole is arranged on the outer surface of the first boss 135;

a baffle flange 2311 is arranged at the edge of the baffle vertical plate 23, which is close to one side of the front panel 13, a second boss 239 is arranged on the baffle flange 2311, the outer surface of the second boss 239 is adjacent to or attached to the inner surface of the first boss 135, a twelfth through hole is formed in the outer surface of the second boss 239, and the position of the eleventh through hole is consistent with that of the twelfth through hole;

the top cover 11 comprises a top cover body 111, a fifteenth folded edge 119 is arranged at the edge of the top cover body 111, which is close to one side of the front panel 13, and thirteenth through holes are formed in the fifteenth folded edge 119 at the positions of the eleventh through hole and the twelfth through hole;

and a bolt inserted into the eleventh through hole, the twelfth through hole and the thirteenth through hole to fix the top cover plate, the wind-proof vertical plate and the front panel.

The advantage that sets up like this lies in, through ingenious design, makes lamina tecti, separate wind riser with the front panel three combines to a screw position simultaneously, through a bolt simultaneously to lamina tecti, separate wind riser with the front panel is fixed, has avoided lamina tecti, separate wind riser with the promotion of the work load that the bolt fastening was caused all needs between the front panel between arbitrary two, has simplified the installation technology.

Preferably, the second boss 239 has a thin-wall structure.

Preferably, the outer surface of the second boss 239 is identical in shape and area to the inner surface of the first boss 135, so that the first boss 135 forms a limit for the second boss 239.

Preferably, the height of the first boss 135 is equal to the height of the second boss 239.

Example twelve

The difference from the above-described embodiment is that, as shown in fig. 12 and 13, the housing structure includes:

the top cover plate 11 comprises a top cover plate body 11, wherein the edge of the top cover plate body 111 is obliquely provided with a folded edge, the folded edge comprises an eleventh folded edge 118 close to one side of the left side plate and a fifteenth folded edge 119 close to one side of the front panel, an included angle between the folded edge and the top cover plate body 111 is beta, and the included angle beta is a bending angle of the folded edge, wherein the included angle is more than 15 degrees and less than 75 degrees;

the front panel 13 comprises a front panel body, wherein a sixteenth folded edge 139 is arranged on the upper edge of the front panel body, an included angle alpha between the sixteenth folded edge 139 and the front panel body is alpha, namely a bending angle of the sixteenth folded edge, and the included angle alpha is more than 15 degrees and less than 75 degrees;

the left side plate 17 comprises a left side plate body, the upper edge of the left side plate body is provided with a twelfth folded edge 179, the included angle between the twelfth folded edge 179 and the left side plate body is gamma, namely the bending angle of the twelfth folded edge, wherein 15 degrees are less than 75 degrees;

the right side plate 31 comprises a right side plate body, wherein a seventeenth folded edge 319 is arranged at the upper edge of the right side plate body, an included angle between the seventeenth folded edge 319 and the right side plate body is theta, namely a bending angle of the sixteenth folded edge, and the included angle theta is more than 0 degrees and less than 75 degrees;

the eleventh flange 118 is attached to the twelfth flange 179, and the fifteenth flange 119 is attached to the sixteenth flange 139.

The arrangement has the advantages that by arranging the inclined bevel edges, the strength of the top cover plate, the front panel, the left side plate and the right side plate is increased, so that the top cover plate, the front panel, the left side plate, the right side plate and the like are not easy to bend; on the other hand, the area of the lower edge of the top cover plate is increased through the arrangement of the bevel edge, and the area surrounded by the upper edges of the front panel, the left side plate and the right side plate is reduced, so that the top cover plate is easier to cover. In addition, the proper inclined folded edge accords with ergonomics, so that the screw screwing is more convenient.

Preferably, through holes are formed in the folded edge, the sixteenth folded edge 139, the twelfth folded edge 179 and the seventeenth folded edge 319, and the top cover 11 is fastened to the front panel 13, the left side panel 17 and the right side panel 31 by bolts or screws.

Preferably, the sum of the angle α and the angle β is equal to 90 °, i.e., α+β=90°. The advantage of this arrangement is that the roof panel can be fully attached to the front panel after installation.

Preferably, the sum of the angle γ and the angle β is equal to 90 °, i.e., γ+β=90°. The advantage of setting up like this is that after making the lamina tecti installation, can laminate completely with the left side board.

Preferably, the sum of the angle θ and the angle β is equal to 90 °, i.e., θ+β=90°. The advantage of setting up like this is that after making the lamina tecti installation, can laminate completely with the right side board.

Preferably, the angles α, γ and θ are equal in size, i.e., α=γ=θ.

Preferably, the angles α, γ and θ are equal in magnitude, i.e., α=γ=θ=45°.

Example thirteen

The present embodiment provides an outdoor unit, including the outdoor unit installation structure or/and the housing connection structure or/and the housing structure according to any one of the foregoing embodiments.

Examples fourteen

The present embodiment provides an air conditioner, including the outdoor unit installation structure or/and the housing connection structure or/and the housing structure or/and the outdoor unit according to any one of the foregoing embodiments.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (10)

1. An outdoor unit installation structure, comprising:

the upper corner frame (16) comprises a first base plate (166), wherein the first base plate (166) is of a rectangular structure, a first folded edge (164), a second folded edge and a third folded edge (165) are respectively arranged at the edge of any three sides of the first base plate (166), and the first folded edge (164), the second folded edge and the third folded edge (165) are perpendicular to the first base plate (166) and are positioned on the same side of the first base plate (166);

a plurality of first kidney-shaped holes (163) are formed in the first base plate (166), and the first kidney-shaped holes (163) can enable the heat exchange tube (153) to be inserted and form clamping fit with a U-shaped structure extending out of the heat exchange tube (153);

the first flange (164) and the second flange are parallel; the distance between the first flange (164) and the second flange is equal to the thickness d1 of the condenser (15); the first folded edge (164) and the second folded edge clamp the condenser (15), the third folded edge (165) is in contact with the upper surface of the condenser (15), the first base plate (166) is in contact with the side surface of the condenser (15) with the heat exchange tube (153) extending out, and the first folded edge (164) is in contact with the left end surface (1521) of the condenser (15);

the condenser comprises a condenser body, and is characterized in that a plurality of first heat exchange holes (161) are formed in the first folded edge (164) and the second folded edge, a first fixing piece (162) is arranged at one edge of the rectangle of each first heat exchange hole (161), a left side plate (17) is arranged on the outer side of the left end face (1521) of the condenser body (15), a positioning inclined hole (170) matched with the first fixing piece (162) is formed in the left side plate (17), and the first fixing piece (162) is used for being inserted into the positioning inclined hole (170) in the left side plate (17) and folded.

2. The outdoor unit installation structure of claim 1, further comprising:

the lower corner frame (18) comprises a second base plate (185), wherein the second base plate (185) is of a rectangular structure, a fourth folded edge (183), a fifth folded edge (184) and a sixth folded edge are arranged on the edge of any three sides of the second base plate (185), and the fourth folded edge (183), the fifth folded edge (184) and the sixth folded edge are perpendicular to the second base plate (185) and are positioned on the same side of the second base plate (185);

a plurality of second kidney-shaped holes (186) are formed in the second base plate (185), and the second kidney-shaped holes (186) can enable the heat exchange tube (153) to be inserted and form clamping fit with a U-shaped structure extending out of the heat exchange tube (153); -said fourth (183) and fifth (184) flaps are parallel; the distance between the fourth (183) and the fifth (184) folds being equal to the thickness d1 of the condenser (15); the fourth folded edge (183) and the fifth folded edge (184) clamp the condenser (15), the sixth folded edge is in contact with the lower surface of the condenser (15), the second substrate (185) is in contact with the side surface of the condenser (15) where the heat exchange tube (153) extends, and the fourth folded edge (183) is in contact with the left end surface (1521) of the condenser (15).

3. The outdoor unit installation structure according to claim 1, wherein the first heat exchange hole (161) has an inclined rectangular shape.

4. The outdoor unit installation structure of claim 2, wherein a plurality of second heat exchanging holes (181) are formed in the fourth and fifth folded edges (183, 184); the second heat exchange hole (181) has an inclined rectangular shape.

5. The outdoor unit installation structure of claim 3, wherein the first fixing piece (162) is perpendicular to the first folded edge (164).

6. The outdoor unit installation structure of claim 4, wherein one edge of the rectangle of any one of the second heat exchanging holes (181) is provided with a second fixing piece (182), and the second fixing piece (182) is a structure in which the edge of the second heat exchanging hole (181) extends perpendicularly and outwardly.

7. The outdoor unit installation structure of claim 1, wherein a first rectangular notch is formed in the first substrate (166), one side of the first rectangular notch coincides with the first folded edge (164), a first installation sheet (169) is disposed at an edge where the first rectangular notch coincides with the first folded edge (164), the first installation sheet (169) is parallel to the first folded edge (164), a first clamping hole (168) is disposed in the first installation sheet (169), the first clamping hole (168) is a kidney-shaped hole, and a direction of a parallel edge of the first clamping hole (168) is an up-down direction.

8. The outdoor unit installation structure according to claim 2, wherein a second rectangular notch is formed in the second substrate (185), one side of the second rectangular notch coincides with the fourth folded edge (183), a second installation sheet (188) is disposed at an edge where the second rectangular notch coincides with the fourth folded edge (183), the second installation sheet (188) is parallel to the fourth folded edge (183), a second clamping hole (189) is disposed in the second installation sheet (188), the second clamping hole (189) is a kidney-shaped hole, and a direction of a parallel edge of the second clamping hole (189) is an up-down direction.

9. An outdoor unit according to any one of claims 1 to 8, wherein the outdoor unit is provided with a mounting structure.

10. An air conditioner having the outdoor unit of claim 9.