CN212870018U - Integrated air-isolating vertical plate and air conditioner - Google Patents

Abstract

The utility model provides an integrated wind-proof vertical plate and an air conditioner, wherein the integrated wind-proof vertical plate comprises a baffle body and an electric control bracket, and the baffle body and the electric control bracket are connected into an integrated structure; the baffle body is suitable for dividing the internal space of the outdoor unit into a fan cavity and an electric control cavity, and the electric control bracket is positioned on one side of the baffle body facing the electric control cavity; and the electric control bracket is provided with a connecting structure and is suitable for being connected with a control panel component of the outdoor unit through the connecting structure. The integrated wind-proof vertical plate of the utility model sets the electric control bracket and the baffle body into an integrated structure, thereby eliminating the operation of installing the metal plate electric control box on the wind-proof vertical plate and simplifying the assembling procedure of the electric control assembly; meanwhile, a screw hole and a clamping groove for installing the metal plate electric control box do not need to be formed in the partition body, and the waterproof and insect-proof effects of the integrated air-isolating vertical plate are effectively improved.

Description

Integrated air-isolating vertical plate and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to an integral type separates wind riser and air conditioner.

Background

At present, an outdoor unit of an air conditioner is provided with an air isolating vertical plate for dividing an internal space of the outdoor unit into a fan cavity and an electric control cavity, wherein the fan cavity is used for assembling an outdoor fan, and the electric control cavity is used for assembling components such as an electric control assembly, a compressor and the like. Wherein, automatically controlled assembly mainly includes automatically controlled box of panel beating and control panel subassembly.

During assembly, the control board assembly is usually installed on the metal plate electric control box, and then the electric control assembly is integrally assembled on the wind-isolating vertical board, so that the assembly process is complex. In addition, the screw hole and the positioning clamping groove for assembling the electric control box are required to be formed in the air isolating vertical plate, so that water thrown onto the air isolating vertical plate by a fan in a fan cavity or small insects entering the fan cavity easily enter the electric control cavity from the screw hole and the positioning clamping groove in the air isolating vertical plate, the work of electric appliance elements in the electric control cavity is influenced, and the waterproof and insect-proof effects of the air isolating vertical plate are poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem be: how to simplify the assembly process of the electric control assembly and improve the waterproof and insect-proof effects of the wind-proof vertical plate.

In order to solve the problems, the utility model provides an integrated wind-isolating vertical plate, which comprises a baffle body and an electric control bracket, wherein the baffle body and the electric control bracket are connected into an integrated structure; the baffle body is suitable for dividing the internal space of the outdoor unit into a fan cavity and an electric control cavity, and the electric control bracket is positioned on one side of the baffle body facing the electric control cavity; and the electric control bracket is provided with a connecting structure and is suitable for being connected with a control panel component of the outdoor unit through the connecting structure.

Therefore, the electric control bracket and the partition body are arranged into an integrated structure to form the integrated wind-isolating vertical plate, when the electric control assembly is assembled, only the control plate assembly is required to be arranged at the first connecting structure and the second connecting structure on the electric control bracket, and compared with the prior art, the operation of arranging the metal plate electric control box on the wind-isolating vertical plate is omitted, so that the assembling process of the electric control assembly is simplified, and the assembling efficiency is improved; meanwhile, a screw hole and a clamping groove for mounting the metal plate electric control box are not required to be formed in the partition plate body, namely, the screw hole and the clamping groove for mounting the metal plate electric control box are not required to be formed in the part of the air-isolating vertical plate parallel to the outdoor unit side plate, so that the using amount of screws is reduced, water thrown onto the partition plate body by a fan in the fan cavity and small insects entering the fan cavity can be prevented from entering the electric control cavity from the fan cavity, the influence of the water or the small insects on the work of electric elements in the electric control cavity is avoided, and the waterproof and insect-proof effects of the integrated air-isolating vertical plate are effectively improved; moreover, dust can be prevented from entering the electric control cavity from the fan cavity, and the dustproof effect of the integrated air isolating vertical plate is improved.

Optionally, the connection structure includes a first connection structure and a second connection structure, and the first connection structure and the second connection structure are respectively disposed at two ends of the electric control bracket located in the vertical direction, the first connection structure is adapted to be connected to one end of the control board assembly, and the second connection structure is adapted to be connected to the other end of the control board assembly.

Like this, the one end that automatically controlled support is located vertical side is connected through first connection structure and control panel subassembly, and the other end that automatically controlled support is located vertical side is connected through the other end of second connection structure and control panel subassembly for be connected more firmly between automatically controlled support and the control panel subassembly.

Optionally, the first connecting structure is a screw hole, the screw hole is disposed at an end portion of the electronic control bracket in the vertical direction, and the control panel assembly is adapted to be fixed to the electronic control bracket through a screw at the screw hole.

Therefore, the first connecting structure is arranged to be the screw hole, so that the structure of the electric control bracket can be simplified, and the electric control bracket is convenient to produce and manufacture; and the selection is when setting up the screw hole in the upper end of automatically controlled support, can be convenient for when the installation control panel subassembly, pass through the screw with the upper end of control panel subassembly preliminary fixation in the upper end department of automatically controlled support earlier, treat that the lower extreme of control panel subassembly aligns the back with the second connection structure on the automatically controlled support and screw up the screw again, this in-process only need hold up the control panel subassembly a little can, need not to hold the control panel subassembly with the hand always and carry out the alignment of the upper end of control panel subassembly and lower extreme department fixed, the manpower has been saved to a certain extent.

Optionally, the second connecting structure is one of a first positioning slot and a first positioning buckle, the corresponding position on the control panel assembly is provided with the other one of the first positioning slot and the first positioning buckle, and the first positioning buckle is suitable for being connected with the first positioning slot in a clamped manner.

Therefore, the lower end of the control board assembly is detachably connected to the electric control bracket through the clamping connection of the first positioning buckle and the first positioning clamping groove, and the structure is simple and the assembly is convenient; moreover, when assembling the control panel assembly, the lower end of the control panel assembly can be clamped on the electric control support for prepositioning, then the matching hole in the upper end of the control panel assembly is aligned with the screw hole in the electric control support, and finally the control panel assembly is fixed on the electric control support through screwing in the screw, so that the difficulty in aligning the matching hole and the screw hole is reduced, and the assembling efficiency is improved.

Optionally, the electronic control support is further provided with a first yielding structure, and the first yielding structure is suitable for yielding the components at the corresponding positions on the control panel assembly.

Like this, through set up first structure of stepping down on automatically controlled support, and the position that sets up of first structure of stepping down is corresponding with the position of the protruding components and parts on the control panel subassembly, prevents that protruding components and parts on the control panel subassembly from interfering with automatically controlled support.

Optionally, the first structure of stepping down is the hole of stepping down, on the control panel assembly components and parts are in the outline of orthographic projection on the automatically controlled support with the size phase-match in hole of stepping down.

Like this, simple structure, the manufacturing of the automatically controlled support of being convenient for, moreover, can prevent to let the hole set up too big and reduce the intensity of automatically controlled support, perhaps prevent to let the hole set up too little and can't dodge bellied components and parts on the control panel subassembly completely.

Optionally, a reinforcing structure is further arranged on the electronic control bracket, and the reinforcing structure is arranged around the edge of the electronic control bracket.

Thus, the structural strength of the electric control bracket is enhanced by arranging the reinforcing structure.

Optionally, the reinforcing structure is a rib pressing structure, and the rib pressing structure is formed by the electronic control bracket being recessed in a direction away from the control board assembly.

Therefore, the electric control bracket is conveniently manufactured by adopting a punch forming process, and the production efficiency is improved; and the rib pressing structure is sunken towards the direction away from the control panel assembly by the electric control support, so that the rib pressing structure is protruded from the side surface of one side of the electric control support, which is away from the control panel assembly, and the interference between the reinforcing structure and the control panel assembly can be avoided.

Optionally, the partition body includes a partition plate and an extension plate which are integrally formed, and the partition plate is adapted to be disposed in parallel to a side plate of the outdoor unit; in the direction perpendicular to the division board, the extension board by the division board is located the one end of width direction and extends towards automatically controlled chamber direction, the one end of automatically controlled support with the extension board keep away from in the one end of division board is connected.

Like this, can directly weld the integral type structure with the current wind riser that separates with automatically controlled support to reduce the change to current wind riser structure that separates, reduction in production cost.

Optionally, a connecting hole is formed in one end, away from the extending plate, of the electronic control bracket, and the electronic control bracket is suitable for being connected with a side plate of the outdoor unit through a fastener at the connecting hole.

Because the one end that the automatically controlled support kept away from in the extension board is also the right-hand member of automatically controlled support, and the right side board of off-premises station is located the right side of automatically controlled support, like this, set up the connecting hole through the right-hand member at automatically controlled support for the right side of automatically controlled support and the right panel of off-premises station form through screwing in fasteners such as screw or bolt and can dismantle the connection in connecting hole department, increased the reliability of integral type wind-proof riser when the off-premises station is fixed, moreover, the steam generator is simple in structure, easy dismounting.

In order to solve the problem, the utility model also provides an air conditioner, including the aforesaid arbitrary integral type separate the wind riser.

Compared with the prior art, the air conditioner has the same advantages as the integrated air isolating vertical plate, and the description is omitted.

Drawings

Fig. 1 is a schematic structural view of an integrated air-isolating vertical plate in an embodiment of the present invention;

FIG. 2 is a schematic top view of the integrated wind-isolating vertical plate in FIG. 1;

FIG. 3 is a schematic diagram of a right side view of the integrated wind-shielding vertical plate in FIG. 1;

fig. 4 is a schematic structural view of the integrated air-isolating vertical plate installed in the outdoor unit according to the embodiment of the present invention;

FIG. 5 is an enlarged view of a portion A of FIG. 4;

fig. 6 is a top view of the integrated air-blocking vertical plate in fig. 4 installed in the outdoor unit.

Description of reference numerals:

1-a separator body, 11-a separator plate, 111-a first folded edge, 112-a second folded edge, 113-a second fixing hole, 114-a second positioning buckle, 115-a clamping groove structure, 116-a third fixing hole, 117-a second abdicating structure, 118-a line groove, 119-a heat dissipation hole, 12-an extension plate, 121-a first fixing hole, 2-an electronic control bracket, 21-a screw hole, 22-a first positioning clamping groove, 23-a first abdicating structure, 24-a reinforcing structure, 25-a connecting hole, 100-a chassis, 200-a control plate assembly, 201-a first positioning buckle and 300-a condenser assembly.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

In the description of the present invention, it should be noted that, in the coordinate system provided herein, the X axis represents the right direction in the forward direction, the X axis represents the left direction in the backward direction, the Y axis represents the rear direction in the forward direction, the Y axis represents the front direction in the backward direction, the Z axis represents the upper direction in the forward direction, and the Z axis represents the lower direction in the backward direction. The terms "upper", "lower", "left", "right", "high", "low", and the like indicate directions or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the prior art, the air-isolating vertical plate, the metal plate electric control box and the control panel assembly which are assembled in the outdoor unit are all independent components, and the control panel assembly is required to be installed on the metal plate electric control box firstly, and then the metal plate electric control box and the control panel assembly are installed on the air-isolating vertical plate together; the sheet metal electric control box and the air-isolating vertical plate are both of an L-shaped sheet metal structure and are provided with parts parallel to a side plate (namely a left side plate or a right side plate) and a panel (namely a front panel or a rear panel) of the outdoor unit, when the sheet metal electric control box and the side plate of the outdoor unit are assembled, the parts parallel to the sheet metal electric control box and the side plate of the outdoor unit are installed on the parts parallel to the air-isolating vertical plate and the side plate of the outdoor unit by adopting a screw and buckle structure, the parts parallel to the sheet metal electric control box and the panel of the outdoor unit are installed on the parts parallel to the air-isolating vertical plate and the panel of the outdoor unit by adopting a screw and buckle structure, the assembling process is complex, and the parts parallel. The part of the air isolating vertical plate parallel to the outdoor unit side plate divides the internal space of the outdoor unit into a fan cavity and an electric control cavity, water thrown onto the air isolating vertical plate by a fan in the fan cavity and small insects entering the fan cavity easily enter the electric control cavity from screw holes and clamping grooves in the part of the air isolating vertical plate parallel to the outdoor unit side plate, the work of electric elements in the electric control cavity is influenced, and the waterproof and insect-proof effects of the air isolating vertical plate are poor.

Referring to fig. 1 to 4, the present embodiment provides an integrated air-isolating vertical plate, which includes a partition body 1 and an electronic control bracket 2, where the partition body 1 and the electronic control bracket 2 are connected to form an integrated structure, the partition body 1 is suitable for dividing an internal space of an outdoor unit into a blower cavity and an electronic control cavity, and the electronic control bracket 2 is located on a side of the partition body 1 facing the electronic control cavity; and the electric control bracket 2 is provided with a connecting structure, and the electric control bracket 2 is suitable for being connected with a control panel assembly 200 of the outdoor unit through the connecting structure.

In this embodiment, the baffle body 1 and the electronic control bracket 2 can be connected into an integrated structure by welding, riveting or integral forming, and the baffle body 1 and the electronic control bracket 2 are preferably integrally formed from the viewpoint of improving the processing efficiency and the convenience in processing. The electric control bracket 2 and the baffle body 1 are arranged into an integrated structure to form an integrated wind-isolating vertical plate, when the electric control assembly is assembled, only the control plate assembly 200 needs to be installed at the connecting structure on the electric control bracket 2, and compared with the prior art, the operation of installing the sheet metal electric control box on the wind-isolating vertical plate is omitted, so that the assembling process of the electric control assembly is simplified, and the assembling efficiency is improved; meanwhile, a screw hole and a clamping groove for mounting the sheet metal electric control box are not required to be formed in the partition plate body 1, namely, the screw hole and the clamping groove for mounting the sheet metal electric control box are not required to be formed in the part of the air-isolating vertical plate parallel to the outdoor unit side plate, so that the using amount of screws is reduced, water thrown onto the partition plate body 1 by a fan in the fan cavity and small insects entering the fan cavity can be prevented from entering the electric control cavity from the fan cavity, the influence of water or small insects on the work of electric elements in the electric control cavity is avoided, and the waterproof and insect-proof effects of the integrated air-isolating vertical plate are effectively improved; moreover, dust can be prevented from entering the electric control cavity from the fan cavity, and the dustproof effect of the integrated air isolating vertical plate is improved.

Optionally, the connection structure includes a first connection structure and a second connection structure, and the first connection structure and the second connection structure are respectively disposed at two ends of the electronic control bracket 2 in the vertical direction, the first connection structure is adapted to be connected with one end of the control board assembly 200, and the second connection structure is adapted to be connected with the other end of the control board assembly 200. Wherein the vertical direction refers to the Z-axis direction in fig. 1. So, automatically controlled support 2 is located the ascending one end of vertical side and is connected with the one end of control panel subassembly 200 through first connection structure, and automatically controlled support 2 is located the ascending other end of vertical side and is connected with the other end of control panel subassembly 200 through second connection structure for be connected more firmly between automatically controlled support 2 and the control panel subassembly 200.

Alternatively, as shown in fig. 1, the first connecting structure is a screw hole 21, and the screw hole 21 is disposed at the end of the electronic control bracket 2 in the vertical direction, and the control board assembly 200 is adapted to be fixed on the electronic control bracket 2 at the screw hole 21 by a screw.

In this embodiment, the end portion of the electronic control bracket 2 in the vertical direction is the upper end or the lower end of the electronic control bracket 2, the screw hole 21 may be disposed at the upper end of the electronic control bracket 2, or at the lower end of the electronic control bracket 2, or at both the upper end and the lower end of the electronic control bracket 2, and correspondingly, the upper end and/or the lower end of the control board assembly 200 is/are provided with a fitting hole adapted to the screw hole 21. In the embodiment, taking the screw hole 21 as an example, which is provided at the upper end of the electronic control bracket 2, the upper end of the control board assembly 200 is fixed on the electronic control bracket 2 by aligning the fitting hole at the upper end of the control board assembly 200 with the screw hole 21 on the electronic control bracket 2 and screwing the screw. Therefore, the first connecting structure is arranged to be the screw hole 21, so that the structure of the electric control bracket 2 can be simplified, and the electric control bracket 2 is convenient to produce and manufacture; and when selecting to set up screw hole 21 in the upper end of automatically controlled support 2, can be convenient for when installation control panel subassembly 200, pass through the screw earlier and tentatively fix in the upper end department of automatically controlled support 2 the upper end of control panel subassembly 200, wait to screw up the screw after the lower extreme of control panel subassembly 200 aligns with the second connection structure on automatically controlled support 2, this in-process only need hold up control panel subassembly 200 a little can, need not to hold control panel subassembly 200 with the hand always and carry out the alignment of the upper end of control panel subassembly 200 and lower extreme department fixed, the manpower has been saved to a certain extent.

Optionally, as shown in fig. 2 and fig. 5, the second connecting structure is one of the first positioning slot 22 and the first positioning buckle 201, the other of the first positioning slot 22 and the first positioning buckle 201 is disposed at a corresponding position on the control board assembly 200, and the first positioning buckle 201 is adapted to be clamped with the first positioning slot 22.

In this embodiment, on the basis that the first connection structure is disposed at the upper end of the electronic control bracket 2, the second connection structure is disposed at the lower end of the electronic control bracket 2, that is, the upper end of the control board assembly 200 is connected to the first connection structure, and the lower end of the control board assembly 200 is connected to the second connection structure. The second connection structure is first location draw-in groove 22, and the lower extreme of control panel subassembly 200 is equipped with first location buckle 201, and perhaps, the second connection structure is first location buckle 201, and the lower extreme of control panel subassembly 200 is equipped with first location draw-in groove 22, and the connection can be dismantled on automatically controlled support 2 to the lower extreme that realizes control panel subassembly 200 through first location buckle 201 and the joint of first location draw-in groove 22, simple structure, convenient assembling. Like this, when assembling control panel subassembly 200, can be earlier with control panel subassembly 200 lower extreme joint to carry out prepositioning on automatically controlled support 2, then aim at the mating holes of control panel subassembly 200 upper end and the screw hole 21 on automatically controlled support 2, fix control panel subassembly 200 on automatically controlled support 2 through the wrong income screw at last, so, with the degree of difficulty that reduces mating holes and screw hole 21 and aim at, improve assembly efficiency.

Optionally, as shown in fig. 1, a first yielding structure 23 is further disposed on the electronic control bracket 2, and the first yielding structure 23 is adapted to yield components at corresponding positions on the control board assembly 200. Because the control panel assembly 200 is provided with a plurality of raised components and parts, on installing the control panel assembly 200 on the automatically controlled support 2, these raised components and parts can interfere with the automatically controlled support 2, influence the installation of control panel assembly 200, so this embodiment is through setting up first structure 23 of stepping down on automatically controlled support 2, and the position that sets up of first structure 23 of stepping down is corresponding with the position of the raised components and parts on the control panel assembly 200, so, to prevent that the raised components and parts on the control panel assembly 200 from interfering with automatically controlled support 2.

Optionally, the first yielding structure 23 is a yielding hole, and an outline of an orthographic projection of the component on the control board assembly 200 on the electronic control bracket 2 matches with the size of the yielding hole. That is to say, if bellied components and parts are cylindric structure on the control panel subassembly 200, then the hole of stepping down sets up to the round hole, if bellied components and parts are polygon column structure on the control panel subassembly 200, then the hole of stepping down sets up to polygon hole, and the size in the hole of stepping down uses components and parts just can pass as being suitable. So, simple structure, the manufacturing of the automatically controlled support 2 of being convenient for, moreover, can prevent to let the hole set up too big and reduce automatically controlled support 2's intensity, perhaps prevent to let the hole set up too little and can't dodge bellied components and parts on the control panel subassembly 200 completely.

Further, the hole of stepping down is provided with a plurality ofly, is used for dodging the protruding components and parts of different positions department on the control panel subassembly 200 respectively.

Optionally, as shown in fig. 1, a reinforcing structure 24 is further disposed on the electronic control stand 2, and the reinforcing structure 24 is disposed around an edge of the electronic control stand 2. In this embodiment, the reinforcing structure 24 may be a raised rib, a triangular rib, or a convex hull, and is disposed on one side of the electronic control bracket 2 departing from the control board assembly 200, so as to avoid interference between the reinforcing structure 24 and the control board assembly 200. In this way, the reinforcing structure 24 is provided to enhance the structural strength of the electrically controlled stand 2.

Optionally, the reinforcing structure 24 is a rib structure, and the rib structure is formed by the electronic control bracket 2 being recessed away from the control board assembly 200. In the embodiment, the reinforcing structure 24 is preferably a rib pressing structure, so that the electric control bracket 2 is conveniently manufactured by adopting a punch forming process, and the production efficiency is improved; and the rib pressing structure is sunken by electrically controlled support 2 to the direction of keeping away from control board subassembly 200 for the rib pressing structure is protruding and sets up in the side that electrically controlled support 2 deviates from control board subassembly 200 one side, can avoid additional strengthening 24 and control board subassembly 200 to take place to interfere.

Alternatively, as shown in fig. 2 and 6, the partition body 1 includes a partition plate 11 and an extension plate 12 which are integrally formed, and the partition plate 11 is adapted to be disposed in parallel to a side plate of the outdoor unit; in the direction perpendicular to the partition plate 11, the extension plate 12 extends from one end of the partition plate 11 in the width direction toward the electronic control chamber, and one end of the electronic control bracket 2 is connected to one end of the extension plate 12 away from the partition plate 11. Here, the width direction of the partition plate 11 refers to the Y-axis direction in fig. 2, and correspondingly, the length direction of the partition plate 11 refers to the Z-axis direction in fig. 1.

Since the wind-isolating vertical plate in the prior art is generally in an "L" -shaped metal plate structure, and has two portions parallel to the side plate and the panel of the outdoor unit, the portion parallel to the side plate of the outdoor unit of the "L" -shaped metal plate structure is equivalent to the partition plate 11 in this embodiment, and the portion parallel to the panel of the outdoor unit is equivalent to the extension plate 12 in this embodiment, wherein the side plate of the outdoor unit refers to the left side plate or the right side plate of the outdoor unit, and correspondingly, the panel of the outdoor unit refers to the front panel or the rear panel of the outdoor unit. In this embodiment, the electronic control bracket 2 is disposed at one end of the extension plate 12 far away from the partition plate 11, and is disposed parallel to the panel of the outdoor unit, so that the electronic control bracket 2 and the existing wind-proof vertical plate can be directly welded into an integrated structure, thereby reducing the change of the existing wind-proof vertical plate structure and lowering the production cost.

Alternatively, as shown in fig. 2 and 3, a connection hole 25 is formed at an end of the electronic control bracket 2 away from the extension plate 12, and the electronic control bracket 2 is adapted to be connected to a side plate of the outdoor unit by a fastening member at the connection hole 25. In this embodiment, the end of the electric control bracket 2 far away from the extension plate 12 is also the right end of the electric control bracket 2, and the right side plate of the outdoor unit is located on the right side of the electric control bracket 2, so that the connecting hole 25 is formed in the right end of the electric control bracket 2, so that the right side of the electric control bracket 2 and the right side plate of the outdoor unit are detachably connected in the connecting hole 25 by screwing in fasteners such as screws or bolts, and the reliability of the integrated air-isolating vertical plate in the outdoor unit is improved.

Further, as shown in fig. 1, a plurality of first fixing holes 121 are formed in the extension plate 12, the plurality of first fixing holes 121 are uniformly formed along the length direction of the extension plate 12, and the extension plate 12 is adapted to be connected to a panel of an outdoor unit at the first fixing holes 121 by a fastening member. Here, the length direction of the extension plate 12 refers to the Z-axis direction in fig. 1, and correspondingly, the width direction of the extension plate 12 refers to the X-axis direction in fig. 2. Thus, the extension plate 12 and the front panel of the outdoor unit are detachably connected at the first fixing hole 121 by screwing in fasteners such as screws or bolts, and the connection is firm, the structure is simple, and the assembly and disassembly are convenient.

Optionally, as shown in fig. 3, heat dissipation holes 119 are formed in the partition plate 11, and the installation positions of the heat dissipation holes 119 are adapted to the installation position of the control board assembly 200. Because the control panel assembly 200 is installed on the electronic control bracket 2, and the electronic control bracket 2 is installed at the upper end of the extension plate 12 far away from the partition plate 11 and close to the extension plate 12, the heat dissipation holes 119 are arranged at the upper half part of the partition plate 11, so that the heat dissipation holes 119 can be located at one side of the control panel assembly 200, heat generated during the operation of the control panel assembly 200 can be conveniently dissipated to the fan cavity from the heat dissipation holes 119, and then the fan in the fan cavity blows out of the outdoor unit.

Further, as shown in fig. 3, a wire slot 118 is provided at the upper end of the partition plate 11, and a connection wire of the motor in the blower chamber is adapted to pass through the blower chamber into the electronic control chamber through the wire slot 118 and is connected to the control board assembly 200. Therefore, the motor connecting wire can be prevented from being damaged due to the oppression of the motor connecting wire by the top cover plate of the outdoor unit when the motor connecting wire is connected to the control board assembly 200 by bypassing the upper end of the partition plate 11.

Alternatively, as shown in fig. 2, the partition plate 11 has a first flange 111 vertically disposed, a second fixing hole 113 is formed at a lower end of the first flange 111, and the partition plate body 1 is adapted to be detachably connected to the outdoor unit bottom chassis 100 at the second fixing hole 113. So, the setting of first hem 111 not only can make things convenient for the rear end of division board 11 to form with chassis 100 and can dismantle the connection, can also strengthen division board 11 and keep away from the structural strength in extension board 12 one end for division board 11 and chassis 100 are difficult to take place to deform after the fastener such as screw is connected in second fixed orifices 113 department.

Specifically, the first folding edge 111 is located at the rear end of the partition plate 11, and a second positioning buckle 114 is disposed on the first folding edge 111, and the second positioning buckle 114 is suitable for being clamped with a rear panel of the outdoor unit. Thus, when the outdoor unit is provided with the rear panel, the partition plate 11 can be clamped with the rear panel through the second positioning fastener 114, and the outdoor unit is simple in structure and convenient to operate.

Optionally, as shown in fig. 2, the partition plate 11 further has a second folded edge 112 horizontally disposed, the second folded edge 112 is provided with a slot structure 115, a corresponding position on the chassis 100 is provided with a fastening structure, and the partition plate body 1 is adapted to be fastened to the chassis 100 through the fastening structure and the slot structure 115. Therefore, the arrangement of the second folded edge 112 not only facilitates the detachable connection of the lower end of the partition plate 11 and the chassis 100, but also enhances the structural strength of the lower end of the partition plate 11, so that the partition plate 11 and the chassis 100 are not easy to deform after being clamped and connected through the clamping structure and the clamping groove structure 115; meanwhile, the contact area between the separator body 1 and the base plate 100 is increased by the arrangement of the second folded edge 112, so that the connection between the separator body 1 and the base plate 100 is more stable.

Specifically, as shown in fig. 2, the second flange 112 is further provided with a third fixing hole 116, and the separator body 1 is adapted to be detachably connected to the chassis 100 at the third fixing hole 116. So, after the joint location through buckle structure and draw-in groove structure 115, further adopt fasteners such as screw to fix in third fixed orifices 116 department, fastness when improving being connected between baffle body 1 and chassis 100.

Further, as shown in fig. 3, a second avoiding structure 117 is further disposed on the partition plate 11, and the second avoiding structure 117 is adapted to avoid the compressor installed in the electric control cavity. Since the compressor is usually connected with the pipeline and the valve body, when the compressor is installed on the chassis 100 located in the electronic control cavity, the protruding part on the compressor interferes with the partition plate 11, which affects the installation of the compressor, in this embodiment, the second abdicating structure 117 is provided on the partition plate 11, and the position of the second abdicating structure 117 corresponds to the position of the protruding part on the compressor, so as to prevent the protruding part on the compressor from interfering with the partition plate 11.

Specifically, the second avoiding structure 117 is a convex hull structure, and the convex hull structure protrudes from the partition plate 11 toward the direction of the fan cavity. So, the space that the convex closure structure encloses can be used for holding the bulge on the compressor, and can not take place to interfere with division board 11, simple structure not only, the manufacturing of the baffle body 1 of being convenient for, moreover, the structural strength of division board 11 can be strengthened to the convex closure structure for division board 11 is difficult to take place deformation.

The utility model discloses another embodiment provides an air conditioner to solve and how to simplify the assembly process of automatically controlled assembly and improve the problem of the waterproof, protection against insects effect of wind riser, this air conditioner contains the aforesaid arbitrary integral type wind riser structure that separates.

The air conditioner in this embodiment includes an outdoor unit casing, a condenser 300 installed in the outdoor unit casing, a compressor, a control panel assembly 200, and the above-mentioned integrated air-isolating vertical plate, where the outdoor unit casing includes a chassis 100, a left side plate, a right side plate, and a front panel, and may also include a rear panel. The electric control bracket 2 and the baffle body 1 are integrally formed to form the integrated air-isolating vertical plate, when the electric control assembly is assembled, only the control plate assembly 200 needs to be arranged at the first connecting structure and the second connecting structure on the electric control bracket 2, and compared with the prior art, the operation of arranging the sheet metal electric control box on the air-isolating vertical plate is omitted, so that the assembling process of the electric control assembly is simplified, and the assembling efficiency is improved; meanwhile, a screw hole and a clamping groove for mounting the sheet metal electric control box are not required to be formed in the partition plate body 1, namely, the screw hole and the clamping groove for mounting the sheet metal electric control box are not required to be formed in the part of the air-isolating vertical plate parallel to the outdoor unit side plate, so that the using amount of screws is reduced, water thrown onto the partition plate body 1 by a fan in the fan cavity and small insects entering the fan cavity can be prevented from entering the electric control cavity from the fan cavity, the influence of water or small insects on the work of electric elements in the electric control cavity is avoided, and the waterproof and insect-proof effects of the integrated air-isolating vertical plate are effectively improved; moreover, dust can be prevented from entering the electric control cavity from the fan cavity, and the dustproof effect of the integrated air isolating vertical plate is improved.

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

Claims (11)

1. The integrated air-isolating vertical plate is characterized by comprising a partition plate body (1) and an electric control support (2), wherein the partition plate body (1) and the electric control support (2) are connected into an integrated structure; the partition board body (1) is suitable for dividing the internal space of the outdoor unit into a fan cavity and an electric control cavity, and the electric control bracket (2) is positioned on one side, facing the electric control cavity, of the partition board body (1); and the electric control bracket (2) is provided with a connecting structure, and the electric control bracket (2) is suitable for being connected with a control panel assembly (200) of the outdoor unit through the connecting structure.

2. The integrated wind-isolating vertical plate according to claim 1, wherein the connecting structure comprises a first connecting structure and a second connecting structure, the first connecting structure and the second connecting structure are respectively arranged at two ends of the electric control bracket (2) in the vertical direction, the first connecting structure is suitable for being connected with one end of the control panel assembly (200), and the second connecting structure is suitable for being connected with the other end of the control panel assembly (200).

3. The integrated wind-shielding riser according to claim 2, wherein the first connecting structure is a screw hole (21), the screw hole (21) is disposed at the end of the electric control bracket (2) in the vertical direction, and the control plate assembly (200) is adapted to be fixed on the electric control bracket (2) at the screw hole (21) by a screw.

4. The integrated wind-isolating vertical plate according to claim 2, wherein the second connecting structure is one of a first positioning clamping groove (22) and a first positioning buckle (201), the other one of the first positioning clamping groove (22) and the first positioning buckle (201) is arranged at a corresponding position on the control plate assembly (200), and the first positioning buckle (201) is suitable for being clamped with the first positioning clamping groove (22).

5. The integrated wind-proof vertical plate according to any one of claims 1 to 4, wherein a first yielding structure (23) is further arranged on the electric control bracket (2), and the first yielding structure (23) is suitable for yielding components at corresponding positions on the control plate assembly (200).

6. The integrated wind-shielding vertical plate according to claim 5, wherein the first receding structure (23) is a receding hole, and an outline of an orthographic projection of the component on the control plate assembly (200) on the electronic control bracket (2) is matched with the size of the receding hole.

7. The integrated wind-insulating vertical plate according to any one of claims 1-4, characterized in that a reinforcing structure (24) is further arranged on the electric control bracket (2), and the reinforcing structure (24) is arranged around the edge of the electric control bracket (2).

8. The integrated wind-insulating vertical plate according to claim 7, characterized in that the reinforcing structure (24) is a rib-pressing structure formed by the electronic control bracket (2) which is concave in the direction away from the control plate component (200).

9. The integrated air-isolating vertical plate of any one of claims 1 to 4, wherein the baffle body (1) comprises a baffle plate (11) and an extension plate (12) which are integrally formed, and the baffle plate (11) is suitable for being arranged in parallel with a side plate of the outdoor unit; in the direction perpendicular to division board (11), extension board (12) by division board (11) are located the one end of width direction and extend towards automatically controlled chamber direction, the one end of automatically controlled support (2) with extension board (12) keep away from the one end of division board (11) is connected.

10. The integrated wind-proof vertical plate of claim 9, wherein the end of the electric control bracket (2) far away from the extension plate (12) is provided with a connecting hole (25), and the electric control bracket (2) is suitable for being connected with a side plate of the outdoor unit at the connecting hole (25) through a fastener.

11. An air conditioner characterized in that, includes the integral wind-proof riser of any one of claims 1-10.

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