CN215336731U - Casing support column, air conditioner casing and air conditioner - Google Patents

Abstract

The utility model provides a shell support column, an air conditioner shell and an air conditioner, and relates to the technical field of air conditioners. Compared with the prior art, the reinforcing rib structure is arranged on the cylinder body to enhance the structural strength of the cylinder body, and the first reinforcing ribs which are annularly distributed are arranged and extend to the upper end and the lower end of the cylinder body, so that the structural strength of the cylinder body can be enhanced in the up-down, left-right directions, the shell supporting columns are prevented from being distorted and deformed due to circumferential torsion when in circulation, the structural strength of the shell supporting columns is greatly enhanced, and the supporting effect of the shell supporting columns is ensured.

Description

Casing support column, air conditioner casing and air conditioner

Technical Field

The utility model relates to the technical field of air conditioners, in particular to a shell support column, an air conditioner shell and an air conditioner.

Background

Among the prior art, the support column can be installed additional usually between the chassis of air conditioner casing and the lamina tecti to guarantee the whole supporting effect of air conditioner casing, in order to strengthen the structural strength of support column, can set up horizontal strengthening rib on the surface of support column usually, and the mutual interval is independent between the strengthening rib, when air conditioner casing turnover receives circumference torsion, there is distortion's risk because of the uneven risk of upper and lower atress, make the support column be difficult to satisfy the supporting effect.

SUMMERY OF THE UTILITY MODEL

The utility model solves the problem of how to improve the strength of the support column and avoid the distortion of the support column.

In order to solve the problems, the utility model adopts the following technical scheme.

In one aspect, the shell supporting column is used for being installed between a base plate and a top cover plate, and comprises a column body extending along the vertical direction and a reinforcing rib structure arranged on the surface of the column body, wherein the reinforcing rib structure comprises first reinforcing ribs annularly distributed on the column body, and the first reinforcing ribs extend to the upper end and the lower end of the column body.

According to the shell support column provided by the utility model, the reinforcing rib structures are arranged on the column body to enhance the structural strength of the column body, and meanwhile, the first reinforcing ribs which are distributed annularly are arranged and extend to the upper end, the lower end, the left end and the right end of the column body, so that the structural strength of the column body can be enhanced in the up-down direction, the left-right direction and the right direction, the shell support column is prevented from being distorted and deformed due to circumferential torsion when in circulation, the structural strength of the shell support column is greatly improved, and the support effect of the shell support column is ensured.

In optional embodiment, first strengthening rib includes that first horizontal rib, first perpendicular rib, the horizontal rib of second and the second that end to end connection and intercommunication are erect and put the rib, first horizontal rib with the horizontal rib of second sets up respectively the upper and lower both ends of cylinder, first horizontal rib first perpendicular rib the horizontal rib of second with the second is erect and is put the rib and be cyclic annular distribution and be in the surface of cylinder.

According to the shell supporting column provided by the utility model, the first transverse ribs, the first vertical ribs, the second transverse ribs and the second vertical ribs which are connected end to end and are communicated with each other are arranged, and the first transverse ribs, the first vertical ribs, the second transverse ribs and the second vertical ribs are distributed in an annular shape.

In an optional implementation manner, the first transverse ribs are parallel to the second transverse ribs, the first vertical ribs are parallel to the second vertical ribs, the first vertical ribs and the second vertical ribs are arranged along the extending direction of the column body, and the first transverse ribs and the second transverse ribs are perpendicular to the extending direction of the column body, so that the first transverse ribs, the first vertical ribs, the second transverse ribs and the second vertical ribs are distributed on the surface of the column body in a shape like a Chinese character 'kou'.

According to the shell supporting column provided by the utility model, the first transverse ribs, the second transverse ribs, the first vertical ribs and the second vertical ribs are arranged in the arrangement direction, so that the first transverse ribs, the second transverse ribs, the first vertical ribs and the second vertical ribs can be distributed on the surface of a column in a shape like a Chinese character 'kou', further the structure of the column is enhanced from the upper direction, the lower direction and the left direction and the right direction, the actual stress condition of the shell supporting column can be more pertinently responded, and the distortion condition is avoided.

In an optional implementation manner, the reinforcing rib structure further includes a plurality of second reinforcing ribs, the second reinforcing ribs are disposed between the first horizontal ribs and the second horizontal ribs, and two ends of the second reinforcing ribs are connected with the first vertical ribs and the second vertical ribs respectively.

According to the shell supporting column provided by the utility model, the second reinforcing rib is additionally arranged, so that the structural strength of the shell supporting column can be further improved in the vertical direction, and the supporting effect of the shell supporting column is improved.

In an alternative embodiment, the second reinforcing bead is parallel to the first or second transverse bead.

In an optional embodiment, the width of the second reinforcing rib is greater than the width of the first horizontal rib or the second horizontal rib, so that two ends of the second reinforcing rib respectively penetrate through the first vertical rib and the second vertical rib.

According to the shell supporting column provided by the utility model, the second reinforcing rib penetrates through the first vertical rib and the second vertical rib, so that the structural reinforcing range of the second reinforcing rib is larger, and the structural strength of the whole shell supporting column is further improved.

In an alternative embodiment, the surface of the cylinder is provided with a stamping groove or a stamping protrusion, and the stamping groove or the stamping protrusion is used for forming the reinforcing rib structure, so that the reinforcing rib structure is recessed inwards or protruded outwards compared with the surface of the cylinder.

According to the shell support pillar provided by the utility model, the reinforcing rib structure is formed by stamping, and the process is simple and reliable.

In alternative embodiments, the rib structure is recessed from 1 to 10mm inwardly relative to the surface of the post body, or the rib structure is raised from 1 to 10mm outwardly relative to the surface of the post body.

In an alternative embodiment, the post includes a first flap, a connecting panel, and a second flap, the first flap being connected to one side of the connecting panel, the second flap being connected to the other side of the connecting panel, the first flap and the connecting panel, and the second flap and the connecting panel being bent, and the rib structure extending to the first flap, the connecting panel, and the second flap simultaneously.

According to the shell supporting column provided by the utility model, the reinforcing rib structure extends to the first folded plate, the connecting plate and the second folded plate at the same time, so that the first folded plate, the connecting plate and the second folded plate can be structurally reinforced to the greatest extent, and the structural strength of the shell supporting column is further higher.

In another aspect, the utility model provides an air conditioner casing, which comprises a bottom plate, a top cover plate and the casing supporting columns, wherein the casing supporting columns are arranged between the bottom plate and the top cover plate.

In another aspect, the utility model further provides an air conditioner, which comprises the shell supporting column.

Drawings

Fig. 1 is a schematic structural diagram of a housing supporting column according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of a supporting column of a housing according to a first embodiment of the present invention at a second viewing angle;

fig. 3 is a schematic structural diagram of a supporting column of a housing according to a first embodiment of the present invention at a third viewing angle;

FIG. 4 is a cross-sectional structural view of the housing support column of FIG. 1;

fig. 5 is a schematic structural diagram of a housing support column according to a second embodiment of the present invention.

Description of reference numerals:

100-a housing support column; 110-a column; 111-a first flap; 113-a connecting plate; 115-a second flap; 117-first connection hole; 119-a second connection hole; 130-a rib structure; 131-a first reinforcing rib; 1311-first transverse ribs; 1313-first vertical ribs; 1315-second transverse ribs; 1317-second vertical ribs; 133-second stiffener.

Detailed Description

As disclosed in the background art, the existing supporting column structure usually only considers the vertical supporting strength, that is, the supporting column is required to be able to support the top cover plate, and the supporting column is usually provided with a transverse reinforcing rib, so that the air conditioner casing has strong vertical deformation resistance. However, during the transportation and transportation of the air conditioning casing, the support column is inevitably subjected to a lateral torsion, that is, the support column is also subjected to a torsion in the horizontal direction, so that the support column is at risk of being distorted.

In order to solve the problems, the utility model provides a novel shell support column, which can be provided with reinforcing ribs in the vertical direction and the horizontal direction, so that the support column has a good support effect, can prevent the support column from being distorted and deformed due to torsion, and ensures the structural integrity of the support column and the shell. In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

First embodiment

With reference to fig. 1 to 4, the present embodiment provides a casing supporting column 100, which is used to be installed between a bottom plate and a top cover plate, and can be provided with reinforcing ribs in the vertical direction and the horizontal direction, so that the supporting effect of the supporting column is good, and the twisting deformation caused by the torsion can be prevented, and the structural integrity of the supporting column and the casing is ensured.

The housing supporting column 100 provided by this embodiment includes a column body 110 extending in an up-and-down direction and a reinforcing rib structure 130 disposed on a surface of the column body 110, where the reinforcing rib structure 130 includes first reinforcing ribs 131 annularly distributed on the column body 110, and the first reinforcing ribs 131 extend to upper and lower ends of the column body 110.

In this embodiment, the casing supporting column 100 is installed on an air conditioning casing of an outdoor unit, the column 110 is vertically installed between a bottom plate and a top cover plate, an upper portion of the column 110 is connected to the top cover plate, and a lower portion of the column 110 is connected to the bottom plate, and the column 110 plays a supporting role. Other structures of the air conditioner casing can refer to the existing outdoor unit. Specifically, the casing support column 100 is disposed at a corner of the left rear side of the air conditioner casing, and two ends of the casing support column 100 are connected to the bottom plate and the top cover plate respectively, so as to support the left side and the rear side of the air conditioner casing.

In this embodiment, through set up strengthening rib structure 130 on cylinder 110, with the structural strength of reinforcing cylinder 110, be the first strengthening rib 131 of cyclic annular distribution simultaneously through the setting, first strengthening rib 131 extends to the upper and lower both ends of cylinder 110, thereby can strengthen the structural strength of cylinder 110 in upper and lower left and right directions, avoid casing support column 100 to produce distortion because of circumference torsion when the turnover, the structural strength of casing support column 100 has been promoted greatly, the supporting effect of casing support column 100 has been guaranteed.

In this embodiment, the stiffener structures 130 extend from top to bottom to two ends of the cylinder 110, and the surface of the cylinder 110 is provided with a stamping groove or a stamping protrusion, which is used to form the stiffener structures 130, so that the stiffener structures 130 are recessed inward or protruded outward compared to the surface of the cylinder 110. Specifically, the cylinder 110 is a sheet metal part, the reinforcing rib structure 130 is formed by a stamping process, and the reinforcing rib structure 130 is recessed inward compared with the surface of the cylinder 110, and forms a stamping groove on the outer surface of the cylinder 110 and a stamping protrusion on the inner surface of the cylinder 110. The reinforcing rib structure 130 is formed by stamping, and the process is simple and reliable.

Note that, in the present embodiment, the inner side of the column 110 refers to a side close to the center of the air conditioning casing, and the outer side of the column 110 refers to a side close to the external space.

In this embodiment, the rib structures 130 are recessed inwardly by 1-10mm compared to the surface of the cylindrical body 110, or the rib structures 130 are raised outwardly by 1-10mm compared to the surface of the cylindrical body 110. Preferably, the rib structures 130 are recessed inward by 5mm compared to the surface of the cylinder 110, so that the depth of the stamping groove is 5mm, and the stamping process is convenient while the reinforcing structure is ensured.

In other preferred embodiments of the present invention, the reinforcing rib structure 130 can also be formed by other processes, such as integral casting or welding, and is not limited herein.

The column 110 includes a first folded plate 111, a connecting plate 113 and a second folded plate 115, the first folded plate 111 is connected to one side of the connecting plate 113, the second folded plate 115 is connected to the other side of the connecting plate 113, the first folded plate 111 and the connecting plate 113, and the second folded plate 115 and the connecting plate 113 are bent, and the rib structure 130 extends to the first folded plate 111, the connecting plate 113 and the second folded plate 115. Through extending strengthening rib structure 130 to first folded plate 111, connecting plate 113 and second folded plate 115 simultaneously, can all carry out the structure to the three and strengthen to the at utmost, and then make the structural strength of casing support column 100 bigger.

In this embodiment, the first flap 111, the connecting plate 113 and the second flap 115 are integrally formed, and the first flap 111 and the second flap 115 are respectively disposed on two sides of the connecting plate 113, wherein the first flap 111 and the connecting plate 113 are disposed in a bent manner, and the second flap 115 and the connecting plate are also disposed in a bent manner, so that the first flap 111 can extend toward the left side of the air conditioning case, and the second flap 115 can extend toward the rear side of the air conditioning case. Preferably, the first flap 111, the connecting plate 113 and the second flap 115 form a C-shaped structure, the included angle between the first flap 111 and the connecting plate 113 is 135 °, and the included angle between the second flap 115 and the connecting plate 113 is 135 °, so that the first flap 111 and the second flap 115 are perpendicular to each other, and are conveniently matched with the left side plate and the rear side plate of the air conditioner casing. Meanwhile, the column 110 of the C-shaped structure has stronger bearing capacity in the vertical direction, and the supporting effect is ensured.

In this embodiment, the top side of the first folding plate 111 and the top side of the second folding plate 115 are both provided with a first connection hole 117, and a first connection screw is assembled in the first connection hole 117, so that the tops of the first folding plate 111 and the second folding plate 115 can be fixed on the top cover plate, and a fixed connection between the top cover plate and the first folding plate 111 is realized. The bottom sides of the first folding plate 111 and the second folding plate 115 are respectively provided with a second connecting hole 119, and a second connecting screw is assembled in the second connecting hole 119, so that the bottoms of the first folding plate 111 and the second folding plate 115 can be fixed on the chassis, and the fixed connection between the chassis and the first folding plate 111 is realized. In addition, in order to facilitate the pre-fixing of the cylinder 110, the bottom sides of the first folding plate 111 and the second folding plate 115 are further provided with a fastening structure, so that the cylinder 110 can be clamped on the chassis, and the second connecting hole 119 can be aligned conveniently and a second connecting screw can be mounted conveniently.

In this embodiment, the first reinforcing rib 131 includes a first transverse rib 1311, a first vertical rib 1313, a second transverse rib 1315, and a second vertical rib 1317 that are connected end to end and are connected to each other, the first transverse rib 1311 and the second transverse rib 1315 are respectively disposed at the upper end and the lower end of the column 110, and the first transverse rib 1311, the first vertical rib 1313, the second transverse rib 1315, and the second vertical rib 1317 are annularly distributed on the surface of the column 110. Through setting up end to end connection and the first horizontal rib 1311 that switches on each other, first perpendicular rib 1313, the horizontal rib 1315 of second and the vertical rib 1317 of second to make first horizontal rib 1311, first perpendicular rib 1313, the horizontal rib 1315 of second and the vertical rib 1317 of second be cyclic annular and distribute, through the combined action of a plurality of ribs, can carry out the structure reinforcing to cylinder 110 in a plurality of directions, further strengthen casing support column 100's structural strength.

It should be noted that in this embodiment, the first vertical ribs 1313 are disposed on the first folding plate 111, the second vertical ribs 1317 are disposed on the second folding plate 115, the first horizontal ribs 1311 and the second horizontal ribs 1315 span over the first folding plate 111, the connecting plate 113 and the second folding plate 115, two ends of the first vertical ribs 1313 respectively extend to upper and lower ends of the first folding plate 111, and two ends of the second vertical ribs 1317 respectively extend to upper and lower ends of the second folding plate 115, so that the torsion resistance of the whole column 110 in the vertical direction is enhanced, and the overall structural strength is improved.

In this embodiment, the first horizontal ribs 1311 and the second horizontal ribs 1315 are parallel, the first vertical ribs 1313 and the second vertical ribs 1317 are both disposed along the extending direction of the column 110, and the first horizontal ribs 1311 and the second horizontal ribs 1315 are perpendicular to the extending direction of the column 110, so that the first horizontal ribs 1311, the first vertical ribs 1313, the second horizontal ribs 1315, and the second vertical ribs 1317 are distributed on the surface of the column 110 in a square shape. The arrangement directions of the first transverse ribs 1311, the second transverse ribs 1315, the first vertical ribs 1313 and the second vertical ribs 1317 are set, so that the transverse ribs can be distributed on the surface of the column body 110 in a square shape, the structure of the column body 110 is enhanced in the upper direction, the lower direction, the left direction and the right direction, the actual stress condition of the shell supporting column 100 can be dealt with in a targeted manner, and the distortion condition is avoided.

In conclusion, the casing support column 100 that this embodiment provided is the first strengthening rib 131 that is annular distribution through setting up on cylinder 110, and first strengthening rib 131 extends to the upper and lower both ends of cylinder 110 to can strengthen cylinder 110's structural strength in upper and lower left and right directions, avoid casing support column 100 to produce distortion when the turnover because of circumference torsion, promote casing support column 100's structural strength greatly, guarantee casing support column 100's supporting effect.

Second embodiment

Referring to fig. 5, the present embodiment provides a housing supporting column 100, the basic structure and principle thereof and the technical effect thereof are the same as those of the first embodiment, and for the sake of brief description, no part of the present embodiment is mentioned, and reference may be made to the corresponding contents of the first embodiment.

The casing supporting column 100 includes a column body 110 extending in an up-and-down direction and a reinforcing rib structure 130 disposed on a surface of the column body 110, the reinforcing rib structure 130 includes first reinforcing ribs 131 annularly distributed on the column body 110, and the first reinforcing ribs 131 extend to upper and lower ends of the column body 110.

The first reinforcing rib 131 comprises a first transverse rib 1311, a first vertical rib 1313, a second transverse rib 1315 and a second vertical rib 1317 which are connected end to end and are communicated with each other, the first transverse rib 1311 and the second transverse rib 1315 are respectively arranged at the upper end and the lower end of the column body 110, and the first transverse rib 1311, the first vertical rib 1313, the second transverse rib 1315 and the second vertical rib 1317 are annularly distributed on the surface of the column body 110.

In this embodiment, the rib structure 130 further includes a plurality of second ribs 133, the second ribs 133 are disposed between the first horizontal ribs 1311 and the second horizontal ribs 1315, and both ends of the second ribs 133 are connected to the first vertical ribs 1313 and the second vertical ribs 1317, respectively. By additionally arranging the second reinforcing ribs 133, the structural strength of the shell supporting column 100 can be further improved in the up-down direction, so that the supporting effect is improved.

In this embodiment, the second reinforcing ribs 133 are parallel to the first transverse ribs 1311 or the second transverse ribs 1315. Specifically, first horizontal rib 1311 and second horizontal rib 1315 are parallel to each other, second strengthening rib 133 is also parallel to first horizontal rib 1311, and first horizontal rib 1311, second strengthening rib 133 and second horizontal rib 1315 set up at interval in proper order to realize the structural reinforcement to cylinder 110 in vertical direction.

In this embodiment, the width of the second beads 133 is greater than the width of the first transverse beads 1311 or the second transverse beads 1315, so that both ends of the second beads 133 penetrate the first vertical beads 1313 and the second vertical beads 1317, respectively. Specifically, the second reinforcing rib 133 penetrates through the first vertical rib 1313 and the second vertical rib 1317, so that the structural reinforcing range of the second reinforcing rib 133 is wider, and the structural strength of the whole shell supporting column 100 is further improved.

It should be noted that in this embodiment, the second reinforcing rib 133 crosses the first folded plate 111, the connecting plate 113 and the second folded plate 115, and the two ends of the second reinforcing rib extend more widely, so that the structural reinforcement range of the column 110 is wider, and the support structure strength is more favorably improved.

Third embodiment

The present embodiment provides an air conditioner casing, which comprises a bottom plate, a top cover plate and a casing supporting column 100, wherein the casing supporting column 100 is installed between the bottom plate and the top cover plate, wherein the basic structure and principle of the casing supporting column 100 and the generated technical effects are the same as those of the first embodiment, and for the sake of brief description, the corresponding contents in the first embodiment can be referred to where this embodiment is not mentioned in part.

In this embodiment, the air conditioner casing refers to a casing of an outdoor unit, and at least includes a bottom plate, a top cover plate, and a casing support column 100, where the casing support column 100 includes a column 110 extending in an up-down direction and a reinforcing rib structure 130 disposed on a surface of the column 110, and the reinforcing rib structure 130 includes first reinforcing ribs 131 annularly distributed on the column 110, and the first reinforcing ribs 131 extend to upper and lower ends of the column 110. The upper and lower ends of the column body 110 are fixed on the bottom plate and the top cover plate respectively through screws to realize a supporting function.

In the present embodiment, other components of the air conditioning casing, such as the side panels and the front panel, and the internal components of the air conditioning casing, etc., can be referred to the existing outdoor unit of the air conditioner, and will not be described in detail herein.

Fourth embodiment

The present embodiment provides an air conditioner, comprising an air conditioner housing and an air conditioner component accommodated in the air conditioner housing, wherein the air conditioner housing comprises a base plate, a top cover plate and a housing support column 100, and the housing support column 100 is installed between the base plate and the top cover plate, wherein the basic structure and principle of the housing support column 100 and the technical effects produced are the same as those of the first embodiment, and for the sake of brief description, the corresponding contents in the first embodiment can be referred to where this embodiment is not mentioned in part.

In this embodiment, the air conditioner is an air conditioner external unit, and the basic structure and the installation principle of the air conditioner casing can refer to the existing air conditioner external unit, wherein the air conditioner casing is internally provided with components such as a compressor, a fan, an electric control box and the like, and the internal layout and the installation structure of the air conditioner casing can also refer to the existing air conditioner external unit.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (10)

1. The utility model provides a casing support column for install between chassis and lamina tecti, its characterized in that, the casing support column includes cylinder (110) that extend along upper and lower direction and sets up strengthening rib structure (130) on the surface of cylinder (110), strengthening rib structure (130) are including being cyclic annular distribution first strengthening rib (131) on cylinder (110), just first strengthening rib (131) extend to the upper and lower both ends of cylinder (110).

2. The shell supporting column according to claim 1, wherein the first reinforcing rib (131) comprises a first transverse rib (1311), a first vertical rib (1313), a second transverse rib (1315) and a second vertical rib (1317) which are connected end to end and are communicated with each other, the first transverse rib (1311) and the second transverse rib (1315) are respectively arranged at the upper end and the lower end of the column body (110), and the first transverse rib (1311), the first vertical rib (1313), the second transverse rib (1315) and the second vertical rib (1317) are annularly distributed on the surface of the column body (110).

3. The shell support column according to claim 2, characterized in that the first transverse ribs (1311) and the second transverse ribs (1315) are parallel, the first vertical ribs (1313) and the second vertical ribs (1317) are parallel, and the first vertical ribs (1313) and the second vertical ribs (1317) are both arranged along the extension direction of the column (110), the first transverse ribs (1311) and the second transverse ribs (1315) are perpendicular to the extension direction of the column (110), so that the first transverse ribs (1311), the first vertical ribs (1313), the second transverse ribs (1315) and the second vertical ribs (1317) are distributed in a square on the surface of the column (110).

4. The shell support column according to claim 2, wherein the stiffener structure (130) further comprises a plurality of second stiffeners (133), the second stiffeners (133) are disposed between the first horizontal stiffeners (1311) and the second horizontal stiffeners (1315), and both ends of the second stiffeners (133) are connected to the first vertical stiffeners (1313) and the second vertical stiffeners (1317), respectively.

5. A shell support column according to claim 4, characterised in that the width of the second reinforcing bar (133) is greater than the width of the first (1311) or second (1315) transverse bar, so that the two ends of the second reinforcing bar (133) penetrate the first (1313) and second (1317) vertical bars, respectively.

6. The housing support post according to claim 1, wherein the surface of the post body (110) is provided with a punching groove or a punching protrusion for forming the bead structure (130) such that the bead structure (130) is recessed or protruded outwardly as compared to the surface of the post body (110).

7. The housing support post of claim 6, wherein the stiffener structure (130) is recessed 1-10mm inward compared to the surface of the post (110) or the stiffener structure (130) is raised 1-10mm outward compared to the surface of the post (110).

8. A shell prop according to any one of claims 1 to 7, characterized in that the post (110) comprises a first flap (111), a web (113) and a second flap (115), the first flap (111) being connected to one side of the web (113), the second flap (115) being connected to the other side of the web (113), the first flap (111) and the web (113) and the second flap (115) and the web (113) being bent between them, the rib structure (130) extending to the first flap (111), the web (113) and the second flap (115) simultaneously.

9. An air conditioning casing comprising a base pan, a top cover plate and a casing support post as claimed in any one of claims 1 to 8, the casing support post being disposed between the base pan and the top cover plate.

10. An air conditioner characterized by comprising the housing support column according to any one of claims 1 to 8.

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