CN114576731B - Assembling method of indoor unit of vertical air conditioner - Google Patents

Abstract

The invention provides an assembling method of an indoor unit of a vertical air conditioner. The assembling method of the indoor unit of the vertical air conditioner comprises the following steps: fixing the left upright post support and the right upright post support with the base; fixedly assembling the triangular supports and the transverse upright post supports into a triangle; pushing the triangle into the rear parts of the left upright post support and the right upright post support, and fixing the triangle with the air duct plate, the left upright post support and the right upright post support respectively. According to the assembling method of the indoor unit of the vertical air conditioner, through the triangular support and the transverse upright support, the air duct plate can be more stable through the stable triangular shape, so that the stability of the air duct plate is effectively improved, the overall stability of the indoor unit of the vertical air conditioner is further improved, the situation that the indoor unit of the vertical air conditioner is bent and deformed in the process of transportation and falling is avoided, the assembling mode is simple and convenient, the assembling efficiency is effectively improved, and the production cost is saved.

Description

Assembling method of indoor unit of vertical air conditioner

Technical Field

The invention relates to the technical field of household appliances, in particular to an assembly method of an indoor unit of a vertical air conditioner.

Background

With the development of society and the continuous improvement of living standard of people, various air conditioning apparatuses have become one of the indispensable electrical devices in people's daily life. Various air conditioning devices can help people reach an adaptable temperature when the ambient temperature is too high or too low.

The current air conditioner adjusting device mainly comprises various types of air conditioners and fans, and the air conditioners can be divided into vertical type, wall-mounted type, suspended ceiling type and the like according to different setting modes. The vertical air conditioner is mainly used in public places such as living rooms, schools, hospitals and the like with large areas. The traditional vertical air conditioner indoor unit is often poor in performance in the transportation fall impact process, the overall rigidity is low, deformation and bending to a large extent are easy to occur, shaking is large, particularly, bending damage is easy to occur at the place where the bottom end of the air duct is connected with the inclined upright post, and the lower half part of the air duct is also easy to bend, so that the stability of the vertical air conditioner indoor unit is affected. In addition, the existing indoor unit of the vertical air conditioner has a limited inner space of a shell, and various structures originally arranged in the inner space occupy a large space, so that the stability of an air duct is improved by adding a supporting structure.

Disclosure of Invention

An object of the present invention is to provide a simple and convenient assembly method for improving the overall stability of the indoor unit of the vertical air conditioner.

A further object of the present invention is to optimize the force transmission path of the duct board in a limited installation space, increasing its overall stiffness.

In particular, the present invention provides a method for assembling a floor air conditioner indoor unit, wherein the floor air conditioner indoor unit comprises: a housing defining a cavity therein, the housing including a base; the air duct plate is arranged in the cavity and is configured to be used as an air duct component to limit an air duct; and set up in inside triangle support, left stand support, right stand support and the horizontal stand support of cavity, and the assembly method includes: fixing the left upright post support and the right upright post support with the base; fixedly assembling the triangular supports and the transverse upright post supports into a triangle; pushing the triangle into the rear parts of the left upright post support and the right upright post support, and fixing the triangle with the air duct plate, the left upright post support and the right upright post support respectively.

Optionally, the triangular support comprises: the first support part and the second support part are provided with an included angle; the first connecting part extends horizontally leftwards from the rear end of the first supporting part; the second connecting portion extends by the rear end level of second supporting part right, and horizontal stand supports and has third supporting part, and first connecting portion has offered the screw with the corresponding screw of seting up of third supporting part left end, and second connecting portion has offered the screw with the corresponding screw of seting up of third supporting part right-hand member, and supports triangle support and horizontal stand and fixedly assemble into triangle-shaped step includes: fixing the first connecting part and the third supporting part through screws; the second connecting portion is fixed to the third supporting portion by a screw.

Optionally, the transverse upright post support is further provided with a third connecting part and a fourth connecting part, and the left end of the third supporting part extends backwards to form a third connecting part; the right-hand member backward extension of third supporting part is formed with fourth connecting portion, and the screw has been seted up to third connecting portion and left stand support correspondence, and the screw has been seted up to fourth connecting portion and right stand support correspondence, and supports triangle-shaped and left stand and right stand and support the step that carries out fixedly includes: the third connecting part is supported and fixed with the left upright post through a screw; the fourth connecting part is supported and fixed with the right upright post through screws.

Optionally, the triangular support further comprises: the flat plate part, the mounting part and the bearing part extend horizontally and rightwards from the front end of the first supporting part; the mounting part extends obliquely and backwards from the right end of the flat plate part; the bearing part horizontally extends rightward from the rear end of the mounting part; the second supporting part extends backward by the right-hand member slope of bearing portion, and the lower part left side oblique rear of wind channel board is provided with the enhancement and supports, and the installation department corresponds with the enhancement and supports the lower extreme and offer the screw, and carries out the step of fixed triangle-shaped and wind channel board and includes: the mounting portion is fixed to the reinforcing support by screws.

Optionally, the indoor unit of the vertical air conditioner further includes: front column support and rear column support, and still include when supporting left column, right column support and the fixed step of base: the front upright post support and the rear upright post support are fixed with the base.

Optionally, the indoor unit of the vertical air conditioner further includes: the heat exchanger is configured to exchange heat with air entering the cavity, and after the step of fixing the left upright support, the right upright support and the base, the heat exchanger further comprises: and fixing the heat exchanger with the left upright post support and the right upright post support.

Optionally, after the step of fixing the heat exchanger to the left and right column supports, it comprises: and the air duct plate is supported and fixed with the front upright post.

Optionally, the indoor unit of the vertical air conditioner further includes: the control box is configured to control the running state of the indoor unit of the vertical air conditioner, and after the step of fixing the triangle with the air duct plate, the left upright post support and the right upright post support respectively, the control box further comprises: the control box is fixedly arranged in the space below the air duct plate.

Optionally, the indoor unit of the vertical air conditioner further includes: the accessories are arranged in the cavity, and after the step of fixedly arranging the control box in the space below the air duct plate, the accessories further comprise: a plurality of accessories are fixedly arranged in the cavity.

Optionally, the housing further comprises: left and right panels, and further comprising, after the step of fixedly disposing the plurality of accessories within the cavity: the left upright post support is fixed with the left panel, and the right upright post support is fixed with the right panel.

According to the assembly method of the indoor unit of the vertical air conditioner, the left upright post support and the right upright post support are fixed with the base, the triangular support and the transverse upright post support are fixedly assembled into the triangular shape, the triangular shape is pushed in from the rear of the left upright post support and the right upright post support, the triangular shape is respectively fixed with the air duct plate and the left upright post support and the right upright post support, the air duct plate can be more stable through the arrangement of the triangular support and the transverse upright post support, the stability of the air duct plate is effectively improved, the overall stability of the indoor unit of the vertical air conditioner is further improved, the condition that the indoor unit of the vertical air conditioner is bent and deformed in the transportation and falling process is avoided, the assembly mode is simple and convenient, the assembly efficiency is effectively improved, and the production cost is saved.

Furthermore, according to the assembling method of the indoor unit of the vertical air conditioner, the mounting part is fixed with the reinforcing support through the screws, so that the triangle and the air duct plate are fixed, and an installer can realize connection and fixation only by laterally screwing, so that the assembling mode is further simplified; the triangular supports are fixed with the reinforcing support of the air duct plate, and the force-transmitting part of the triangular supports is used for supporting the force in the process of falling impact during the transportation of the indoor unit of the vertical air conditioner, so that the air duct plate is firmer and can not be crushed, the reinforcing support can further prevent the air duct plate from bending, and the force-transmitting path of the air duct plate is optimized and the integral rigidity of the air duct plate is increased by setting up a reasonable support assembly and adopting a scientific assembly mode on the premise of not changing the original structure inside the cavity of the shell in a limited installation space.

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

Drawings

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

fig. 1 is a schematic front view of a floor air conditioner indoor unit assembled by an assembling method of the floor air conditioner indoor unit according to an embodiment of the present invention;

fig. 2 is a schematic view illustrating an internal structure of the indoor unit of the neutral air conditioner of fig. 1;

fig. 3 is a partial structural schematic view of the indoor unit of the neutral air conditioner of fig. 1;

FIG. 4 is a partial schematic view of the view of FIG. 3;

FIG. 5 is an enlarged schematic view of area A of FIG. 3;

FIG. 6 is an enlarged schematic view of region B of FIG. 4;

FIG. 7 is a schematic view of the structure of the triangular supports and the lateral upright supports of FIG. 2;

fig. 8 is a schematic view illustrating an assembling method of an indoor unit of a floor air conditioner according to an embodiment of the present invention; and

fig. 9 is a detailed flowchart of an assembling method of an indoor unit of a floor air conditioner according to an embodiment of the present invention.

Detailed Description

The embodiment provides an assembly method of vertical air conditioner indoor unit, through setting up triangle support and horizontal stand support, can make the wind channel board more firm through firm triangle-shaped shape, effectively promote the stability of wind channel board to and promote the overall stability of vertical air conditioner indoor unit, avoid vertical air conditioner indoor unit to appear bending deformation's condition in the transportation fall the in-process, assembly method is simple convenient, effectively promotes assembly efficiency and practices thrift manufacturing cost. Fig. 1 is a schematic front view of a floor air conditioner indoor unit 100 assembled according to an assembling method of the floor air conditioner indoor unit according to an embodiment of the present invention, fig. 2 is a schematic internal structure of the floor air conditioner indoor unit 100 of fig. 1, fig. 3 is a schematic partial structure of the floor air conditioner indoor unit 100 of fig. 1, fig. 4 is a schematic partial structure of another view of fig. 3, fig. 5 is an enlarged schematic view of a region a of fig. 3, fig. 6 is an enlarged schematic view of a region B of fig. 4, and fig. 7 is a schematic structure of a triangle support 210 and a transverse upright support 240 of fig. 2.

As shown in fig. 1 to 7, the floor air conditioner indoor unit 100 may generally include: housing 110, duct board 120, triangular support 210, left upright support 220, right upright support 230, and lateral upright support 240. Wherein the interior of the housing 110 defines a cavity 118, the housing may include a base. A duct plate 120 is disposed within the cavity 118 and is configured to define a duct as a duct assembly. The triangular supports 210, left upright supports 220, right upright supports 230, and lateral upright supports 240 are disposed within the cavity 118.

In addition, the triangular support 210 may be fixedly connected with the duct board 120, and may include a first support portion 211 and a second support portion 212, where an included angle is formed between the first support portion 211 and the second support portion 212. The vertical air conditioner indoor unit 100 can enable the air duct plate 120 to be more stable through the stable triangular shape by arranging the triangular supports 210 and the transverse upright supports 240, so that the stability of the air duct plate 120 is effectively improved, the overall stability of the vertical air conditioner indoor unit 100 is further improved, and the situation that the vertical air conditioner indoor unit 100 is bent and deformed in the process of being transported and falling is avoided.

In a specific embodiment, the housing 110 may include a front panel 111, and the front panel 111 may be provided with an air outlet 114. The duct board 120, as a duct assembly, may define a duct along with other duct assemblies (not shown). The air duct may enable cold air or hot air to flow to the air outlet 114, and be sent to the environment where the indoor unit 100 of the vertical air conditioner is located through the air outlet 114.

In addition, the housing 110 may further include a rear panel (not shown), and the rear panel may be provided with an air inlet for air outside the indoor unit 100 of the floor air conditioner to enter the interior cavity 118 of the housing 110. In a preferred embodiment, the air inlet may be configured as an air intake grille, so that air outside the indoor unit 100 of the vertical air conditioner can be sucked into the cavity 118 in different directions and a certain coarse filtering effect can be achieved. In addition, the housing 110 may further include: a top cover 117, wherein the top cover 117 may cover the top of the front panel 111, and the base 116 may be disposed at the bottom of the front panel 111. The top cover 117 and the base 116 can effectively improve the overall aesthetic degree of the floor air conditioner indoor unit 100.

In a specific embodiment, the floor air conditioner indoor unit 100 may further include: a main body (not shown) disposed in the cavity 118 and configured to exchange heat with air entering the cavity 118 from the air inlet and blow the exchanged air out through the air outlet 114. The intake vent is configured to allow air from the indoor environment in which the floor air conditioner indoor unit 100 is located to enter the cavity 118. The main body is configured to exchange heat and blow air from the indoor environment into the cavity 118.

In general, the body portion may include: heat exchangers and fans. Wherein the heat exchanger is configured to exchange heat with air entering the cavity 118, in particular with air entering the cavity 118 from the air inlet. The fan may be configured to blow the heat exchanged air out through the air outlet 114. The shape of the heat exchanger can be matched with the air inlet, so that the air passing through the air inlet completely enters the heat exchanger for heat exchange, and the air passing through the heat exchanger for heat exchange is blown out by the fan through the air outlet 114. And the fan may be provided in various types such as a centrifugal fan, an axial flow fan, a cross flow fan, etc., according to the actual situation. In a preferred embodiment, the fan is a cross-flow fan, and is also matched with the air outlet 114, so that the air output and the air output efficiency can be effectively improved.

In addition, the floor air conditioner indoor unit 100 may further include: an air deflector (not shown) is configured to controllably open and close the air outlet 114. Generally, when the indoor unit 100 of the vertical air conditioner is in a stop state, the air guide plate closes the air outlet 114, so as to prevent contaminants in indoor ambient air from entering the housing 110 through the air outlet 114. When the vertical air conditioner indoor unit 100 is in a start-up state, the air guide plate opens the air outlet 114, so that the air processed inside the vertical air conditioner indoor unit 100 is sent to the room through the air outlet 114. The treated air, referred to as indoor ambient air entering the cavity 118, is blown out via heat exchanger heat exchange and fans.

In a preferred embodiment, a filter element may also be provided at the air deflector to ensure that the air delivered into the room through the air outlet 114 meets the health requirements of the user. Also, the floor air conditioner indoor unit 100 may further include: the swing blade 115 is disposed at the air outlet 114, and the swing blade 115 can be connected with the air duct plate 120, and when the cold air or hot air conveyed by the air duct is sent to the air outlet 114, the air outlet direction can be adjusted by adjusting the posture of the swing blade 115.

The existing vertical air conditioner indoor unit is often poor in performance in the process of transportation falling impact, the overall rigidity is low, deformation and bending to a large extent are easy to occur, shaking is large, particularly bending damage is easy to occur at the place where the bottom end of the air duct is connected with the inclined upright post, and the lower half part of the air duct is also easy to bend, so that the stability of the vertical air conditioner indoor unit is affected. By arranging the triangular supports 210 and the transverse upright supports 240, the air duct plate 120 can be more stable through the stable triangular shape, so that the stability of the air duct plate 120 is effectively improved, the overall stability of the vertical air conditioner indoor unit 100 is further improved, and the situation that the vertical air conditioner indoor unit 100 is bent and deformed in the transportation and falling process is avoided.

As shown in fig. 7, in a specific embodiment, the triangular support 210 may further include: a flat plate portion 213, a mounting portion 214, and a force receiving portion 215. Also, the flat plate portion 213 extends horizontally rightward from the front end of the first support portion 211; the mounting portion 214 extends obliquely rearward from the right end of the flat plate portion 213; the bearing part 215 extends horizontally rightward from the rear end of the mounting part 214; the second support portion 212 extends obliquely rearward from the right end of the bearing portion 215.

In addition, the triangular support 210 may further include: a first connection 216 and a second connection 217. And, the first connection part 216 extends horizontally leftward from the rear end of the first supporting part 211; the second connection portion 217 extends horizontally rightward from the rear end of the second support portion 212. As shown in fig. 7, each portion of the triangular support 210, for example, the first connection portion 216, the second connection portion 217, the first support portion 211, the second support portion 212, the flat plate portion 213, the mounting portion 214, and the bearing portion 215 may be provided with flanges 218 at upper and lower ends. Moreover, the flanges 218 are all oriented forward or obliquely forward, so that the stability of each part of the triangular support 210 can be improved by the flanges 218, and the overall stability of the triangular support 210 and the stability of the air duct board 120 fixedly connected with the triangular support are improved.

As shown in fig. 1 and 2, the housing 110 may include a left panel 112 and a right panel 113. The left column support 220 is fixed to the left panel 112, and the right column support 230 is fixed to the right panel 113. As shown in fig. 2 to 7, the lateral column support 240 may have a third support portion 241, a third connection portion 242, and a fourth connection portion 243. And, the left end of the third supporting part 241 is extended rearward to form a third connecting part 242; the right end of the third supporting portion 241 is extended rearward to form a fourth connecting portion 243.

In a preferred embodiment, the third connection portion 242 is provided with screw holes corresponding to the left column support 220 to fix the third connection portion 242 to the left column support 220 by screws. The fourth connection portion 243 is provided with screw holes corresponding to the right column support 230 so that the fourth connection portion 243 is fixed to the right column support 230 by screws. The third connecting portion 242 is fixed to the left column support 220, and the fourth connecting portion 243 is fixed to the right column support 230, in effect, fixing the lateral column support 240 to the left column support 220 and the right column support 230. Also, because the left upright support 220 is fixed to the left panel 112, the right upright support 230 is fixed to the right panel 113, and in effect, the left upright support 220 and the right upright support 230 are fixed to the housing 110. Thus, the lateral post support 240 may be indirectly secured to the housing 110.

As shown in fig. 5 to 7, screw holes are formed at left ends of the first connection part 216 and the third support part 241, respectively, so that the first connection part 216 and the third support part 241 are fixed by screws. The second connecting portion 217 and the right end of the third supporting portion 241 are correspondingly provided with screw holes so as to fix the second connecting portion 217 and the third supporting portion 241 by screws. The first connecting portion 216 is fixed to the third supporting portion 241, and the second connecting portion 217 is fixed to the third supporting portion 241, so that the triangular support 210 and the lateral upright support 240 are fixed. Also, since the above-mentioned lateral upright support 240 is indirectly fixed to the housing 110, the triangular support 210 is indirectly fixed to the housing 110.

In a preferred embodiment, as shown in fig. 3 to 6, a reinforcing support 250 may be provided obliquely rearward of the lower left side of the duct board 120. And, the reinforcing support 250 may be provided with grid bars 251. The reinforcing support 250 and the grid ribs 251 provided on the reinforcing support 250 can effectively prevent the duct board 120 from being bent and optimize the force transmission path thereof.

More preferably, the mounting portion 214 is provided with screw holes corresponding to the lower ends of the reinforcing supports 250 so that the mounting portion 214 is fixed to the reinforcing supports 250 by screws. The mounting portion 214 is fixed to the reinforcing support 250, and in fact, the triangular support 210 is fixed to the reinforcing support 250, and further, the air duct board 120 where the triangular support 210 and the reinforcing support 250 are located is fixed. Because the triangular support 210 and the casing 110 are indirectly fixed, the lower end of the air duct board 120 and the casing 110 are indirectly fixed, so that the support rigidity of the lower end of the air duct board 120 is effectively improved, and the stability of the air duct board is further improved.

As shown in fig. 5 and 6, a relief groove 252 is provided outside the screw hole on the reinforcing support 250 to avoid the bearing portion 215. The setting of the abdication groove 252 can prevent the bearing part 215 of the triangular support 210 from interfering with the reinforced support 250, and the structural design is scientific and reasonable. And it should be emphasized that the bearing portion 215 of the triangular support 210 can effectively realize support stress. The triangular shape of the triangular supports 210 and the transverse upright supports 240 is also more stable and does not collapse when subjected to a force.

The screw hole that installation department 214 corresponds with the enhancement support 250 lower extreme and offers for the installer only need beat the screw in the side direction can, assembly method scientific and reasonable can effectively promote efficiency. In addition, in the limited installation space, on the premise of not changing the original structure in the cavity 118 of the shell 110, the force transmission path of the air duct plate 120 is optimized and the overall rigidity is increased by setting up a support component with scientific and reasonable structure.

As shown in fig. 2, the floor air conditioner indoor unit 100 may further include: the rear pillar support 270 may be fixed at its upper end to the middle barrier 130 inside the cavity 118 and at its lower end to the base 116 of the housing 110. Wherein the midplane 130 may be located above the lateral column supports 240 and the triangular supports 210.

Fig. 3 and 4 actually show schematic structural views of the duct board 120, the left column support 220, the right column support 230, the triangle support 210, and the lateral column support 240. As shown in fig. 3 and 4, the floor air conditioner indoor unit 100 may further include: the front pillar support 260 has an upper end fixed to the bottom end of the duct board 120 and a lower end fixed to the base 116 of the housing 110, thereby indirectly fixing the bottom of the duct board 120 to the housing 110.

In practice, the upper end of the duct plate 120 may also be secured to the top cover 117 of the housing 110. In this way, the air duct board 120 of the indoor unit 100 of the vertical air conditioner in this embodiment has the upper end and the lower end fixed to the housing 110. In particular, the lower half part of the air duct board 120 is further fixed with the shell 110 through the triangular supports 210 and the transverse upright supports 240, so that the support rigidity of the lower half part of the air duct board 120 is further improved. As shown in fig. 3, the front pillar support 260 has a certain degree of bending, because a control box (not shown in the figure) can be arranged at the front pillar support 260, and the bending of the front pillar support 260 can effectively avoid the control box, so that the positions of all components in the cavity 118 are compact, and the occupied volume is reduced. The control box may be configured to control an operation state of the floor air conditioner indoor unit 100, for example, a cooling/heating mode or an air supply mode of the floor air conditioner indoor unit 100.

However, the special configuration of the front post support 260 with a certain bend also makes the downward force transfer path of the duct board 120 poor. The front post support 260 is not sufficiently rigid to support the air duct board 120, and tends to cause damage to the junction with the air duct board 120 during transport drop tests. Therefore, in the vertical air conditioner indoor unit 100 of the present embodiment, on the premise of considering the installation labor cost and the existing available space, the lower half portion of the air duct board 120 and the housing 110 can be fixed by providing the transverse upright support 240 and the triangular support 210, so as to effectively improve the support rigidity of the lower half portion of the air duct board 120.

In addition, the floor air conditioner indoor unit 100 may further include: a plurality of accessories (not shown) are disposed within the cavity 118. The above-mentioned plurality of accessories refer to components other than the specific names mentioned above, but are all disposed within the cavity 118. The variety and number of components disposed within the cavity 118 is also one of the reasons for the difficulty in adding support to the duct plate 120. The indoor unit 100 of the vertical air conditioner in this embodiment solves the technical problem by setting up a supporting component with reasonable structure and adopting a scientific assembly mode.

The terms used to indicate the azimuth and positional relationship in the present embodiment, such as "up", "down", "left", "right", "front" and "rear", are based on the actual use state of the indoor unit 100 of the floor air conditioner. In other embodiments, the terms indicating the orientation or position may be reversed, and the connection relationships between the triangular support 210, the left upright support 220, the right upright support 230, the lateral upright support 240, the duct board 120, and the housing 110 may be reversed correspondingly, that is, a symmetrical structure is implemented.

In a preferred embodiment, the floor air conditioner indoor unit 100 may further include: the fresh air system is configured to allow air from the outdoor environment to enter the cavity 118, exchange heat and blow out through the air outlet 114. That is, the main body portion is configured to treat indoor ambient air entering the cavity 118, while the fresh air system is configured to treat outdoor ambient air entering the cavity 118. The indoor air supply device and the indoor air supply method can effectively solve the problem of indoor environment air pollution, improve the air supply quality of the air conditioner, efficiently purify the air supplied to the indoor, and improve the use comfort of users.

Specifically, the fresh air system realizes a fresh air function, and fresh air can be provided for the room without opening a window to change air. Can also effectively remove mould and peculiar smell, discharge indoor moist and dirty air, eradicate peculiar smell, prevent mould and bacteria breeding, and is beneficial to prolonging the service life of buildings and furniture. The noise pollution is reduced, the dispute of a window opening belt is not needed to be tolerated, and the indoor space is quieter and more comfortable. The fresh air system can reduce energy consumption while adjusting the room temperature. Avoiding windowing can also avoid property and personal safety hidden trouble which are easy to cause by windowing.

In a preferred embodiment, the air outlet of the fresh air system and the air outlet 114 of the main body portion may be disposed up and down, and the blown air may be mixed. Therefore, the air output can be increased while direct blowing is avoided, so that the influence of direct blowing on physical health of a user can be avoided, the air output is soft, and the use experience of the user is greatly improved.

The triangle support 210, the left column support 220, the right column support 230, the lateral column support 240, the reinforcement support 250, the front column support 260, and the rear column support 270 may be considered as support assemblies. The plurality of support assemblies cooperate with each other to play a role in improving the stability of the indoor unit 100 of the vertical air conditioner. In addition, in the indoor unit 100 of the floor air conditioner of the present embodiment, the specific assembly sequence among the duct board 120, each support assembly and the housing 110 may refer to the assembly method of the indoor unit of the floor air conditioner of the following embodiment.

Fig. 8 is a schematic view illustrating an assembling method of an indoor unit of a floor air conditioner according to an embodiment of the present invention. The method of assembling the indoor unit of the floor air conditioner may be used to assemble the indoor unit 100 of the floor air conditioner in the above-described embodiment. As shown in fig. 8, the method for assembling the indoor unit of the floor air conditioner may perform the steps of:

step S802, fixing the left column support 220, the right column support 230 and the base 116;

step S804, fixedly assembling the triangular supports 210 and the transverse upright supports 240 into a triangle;

in step S806, the triangle is pushed in from the rear of the left and right column supports 220 and 230, and then the triangle is fixed with the duct board 120 and the left and right column supports 220 and 230, respectively.

In the above step, in step S802, the left and right column supports 220 and 230 are fixed to the base 116, and since the base 116 is a part of the housing 110, the left and right column supports 220 and 230 are fixed to the housing 110. In step S804, the triangular supports 210 and the transverse upright supports 240 are fixedly assembled into a triangle, so that the air duct plate 120 is more stable due to the stable triangle shape, the stability of the air duct plate 120 is effectively improved, the overall stability of the indoor unit 100 of the vertical air conditioner is further improved, and the situation that the indoor unit 100 of the vertical air conditioner is bent and deformed in the process of transportation and falling is avoided.

In fact, fig. 7 shows a triangle formed by fixedly assembling the triangular support 210 and the transverse upright support 240. Step S806 pushes the triangle into the triangle from the rear of the left upright support 220 and the right upright support 230, then fixes the triangle with the duct board 120 and the left upright support 220 and the right upright support 230, and effectively uses the gap between the left upright support 220 and the right upright support 230, so that it is possible to mount the triangle support 210 and the transverse upright support 240, and the assembly manner is scientific and reasonable, thereby saving time and effort of the installer, and improving the assembly efficiency.

Since the triangular components are the triangular support 210 and the lateral upright support 240, the triangular support 210 is fixed to the duct board 120 and the left and right upright supports 220 and 230, respectively, and the lateral upright support 240 is fixed to the left and right upright supports 220 and 230. But in any case will eventually result in a stable whole of the above-mentioned components.

According to the assembly method of the vertical air conditioner indoor unit, the left upright post support 220 and the right upright post support 230 are fixed with the base 116, the triangular support 210 and the transverse upright post support 240 are fixedly assembled into a triangle, the triangle is pushed in from the rear of the left upright post support 220 and the right upright post support 230, then the triangle is respectively fixed with the air duct plate 120 and the left upright post support 220 and the right upright post support 230, the air duct plate 120 can be more stable through the stable triangle shape through the arrangement of the triangular support 210 and the transverse upright post support 240, the stability of the air duct plate 120 is effectively improved, the overall stability of the vertical air conditioner indoor unit 100 is further improved, the situation that bending deformation occurs in the transportation falling process of the vertical air conditioner indoor unit 100 is avoided, the assembly mode is simple and convenient, the assembly efficiency is effectively improved, and the production cost is saved.

In some alternative embodiments, the above steps may be further optimized and configured to enable the indoor unit 100 of the air conditioner to achieve a higher technical effect, and the following description is given in detail on the method for assembling the indoor unit of the air conditioner according to an alternative execution flow of this embodiment, where the embodiment is merely illustrative of the execution flow, and when implemented, the execution sequence of some steps may be modified according to the specific implementation requirement. Fig. 9 is a detailed flowchart of an assembling method of an indoor unit of a floor air conditioner according to an embodiment of the present invention, the assembling method of the indoor unit of the floor air conditioner comprising the steps of:

step S902, fixing the left column support 220, the right column support 230, the front column support 260, and the rear column support 270 with the base 116;

step S904, fixing the heat exchanger with the left column support 220 and the right column support 230;

step S906, fixing the air duct board 120 with the front pillar support 260;

step S908, fixing the first connection portion 216 and the third support portion 241 by a screw; the second connection part 217 is fixed with the third support part 241 by a screw to fixedly assemble the triangle support 210 and the transverse upright support 240 into a triangle;

step S910, pushing the triangle in from the rear of the left column support 220 and the right column support 230;

step S912, fixing the third connection portion 242 to the left pillar brace 220 by a screw; the fourth connection portion 243 is fixed with the right column support 230 by screws to fix the triangle with the left column support 220 and the right column support 230;

step S914, fixing the mounting portion 214 and the reinforcing support 250 by screws to fix the triangle and the duct board 120;

step S916, fixedly arranging the control box in the lower space of the air duct plate 120;

step S918, fixedly disposing a plurality of accessories in the cavity 118;

in step S920, the left pillar brace 220 is fixed to the left panel 112, and the right pillar brace 230 is fixed to the right panel 113.

In step S902, the left pillar brace 220, the right pillar brace 230, the front pillar brace 260, and the rear pillar brace 270 are fixed to the base 116, and in fact, the left pillar brace 220, the right pillar brace 230, the front pillar brace 260, and the rear pillar brace 270 are fixed to the housing 110.

In step S912, the third connecting portion 242 is fixed to the left pillar brace 220 by a screw; the fourth connecting portion 243 is fixed to the right column support 230 by screws, and since the third connecting portion 242 and the fourth connecting portion 243 are part of the lateral column support 240, the lateral column support 240 is actually fixed to the left column support 220 and the right column support 230. In step S914, the mounting portion 214 is fixed to the reinforcing support 250 by screws to fix the triangle to the duct board 120, and since the mounting portion 214 is a part of the triangle support 210, the reinforcing support 250 is a part of the duct board 120, and in fact, fixes the triangle support 210 to the duct board 120.

Further, in step S908, the triangular support 210 and the transverse upright support 240 are fixedly assembled into a triangle, that is, the triangular support 210 and the transverse upright support 240 are both triangle components. The fixing of the lateral upright supports 240 with the left and right upright supports 220 and 230 and the fixing of the triangle support 210 with the duct board 120 is actually completed.

Step 912 and step 914 are to fix the triangle with the left and right upright supports 220 and 230 and the air duct board 120, and then to execute step 916 and step 918, to fix the control box in the space below the air duct board 120 and to fix the accessories in the cavity 118. This is because the triangular support 210 and the transverse upright support 240 are firstly installed and fixed, and then other control boxes and a plurality of accessories are installed, so that the assembly sequence is reasonable, and the triangular support 210 and the transverse upright support 240 do not occupy the installation space of the control boxes and the plurality of accessories and do not influence the installation difficulty of the control boxes and the plurality of accessories.

In step S920, the left upright support 220 is fixed to the left panel 112, and the right upright support 230 is fixed to the right panel 113, so that the overall stability of the indoor unit 100 of the vertical air conditioner is better because the left upright support 220 and the right upright support 230 are fixed to the base 116 before.

In a specific embodiment, the front panel 111, the left panel 112, and the right panel 113 of the housing 110 may be one integral enclosure. In the method for assembling the indoor unit of the vertical air conditioner according to the present embodiment, after all the components inside the cavity 118 are assembled, the casing can be installed and fixed, and the casing can be fixed with the base 116. Finally, the rear panel may be also fixed to the base 116, and the top of the cover and the rear panel may together form a top cover 117, so that the housing 110 completely covers the internal components, thereby completing the overall installation of the indoor unit 100 of the floor air conditioner.

In summary, in the assembling method of the indoor unit of the vertical air conditioner of the embodiment, the mounting portion 214 is fixed with the reinforcing support 250 through the screws, so that the triangle and the air duct board 120 are fixed, and an installer can realize connection and fixation only by laterally screwing, thereby further simplifying the assembling mode; the triangular supports 210 are fixed with the reinforcing supports 250 of the air duct plate 120, and support stress is carried out through the bearing parts 215 of the triangular supports 210 in the transportation fall impact process of the indoor unit 100 of the vertical air conditioner, so that the air duct plate 120 is more stable and cannot be crushed, the reinforcing supports 250 can further prevent the air duct plate 120 from bending, and under the premise of not changing the original structure inside the cavity 118 of the shell 110 in a limited installation space, the force transmission path of the air duct plate 120 is optimized by setting up a support assembly with reasonable structure and adopting a scientific assembly mode, and the integral rigidity of the air duct plate is increased.

It should be understood by those skilled in the art that, unless specifically stated otherwise, terms such as "upper", "lower", "left", "right", "front", "rear", etc. used to indicate the azimuth or positional relationship in the embodiments of the present invention are based on the actual use state of the indoor unit 100 of the stand air conditioner, and these terms are merely for convenience of description and understanding of the technical solution of the present invention, and do not indicate or imply that the referred device or component must have a specific azimuth, and therefore should not be construed as limiting the present invention.

Unless specifically stated or limited otherwise, the terms "mounted," "connected," "secured" and the like should be construed broadly, as they may be fixed, removable, or integral, for example; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. Those of ordinary skill in the art will understand the specific meaning of the terms described above in the present invention as the case may be.

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

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

Claims (7)

1. An assembling method of a floor air conditioner indoor unit, wherein the floor air conditioner indoor unit comprises: a housing defining a cavity therein, the housing including a base; the air duct plate is arranged in the cavity and is configured to be used as an air duct assembly to define an air duct; and set up in inside triangle support, left stand support, right stand support and the horizontal stand support of cavity, just the assembly method includes:

fixing the left upright post support, the right upright post support and the base;

fixedly assembling the triangular supports and the transverse upright post supports into a triangle; and

pushing the triangle into the rear parts of the left upright post support and the right upright post support, then fixing the triangle with the air duct plate, the left upright post support and the right upright post support respectively,

the triangular support includes: the first support part and the second support part are provided with an included angle; and a first connecting portion and a second connecting portion, and the first connecting portion extends horizontally leftward from the rear end of the first supporting portion; the second connecting part extends horizontally and rightwards from the rear end of the second supporting part,

the transverse upright post support is provided with a third support part, the left end of the first connecting part and the left end of the third support part are correspondingly provided with screw holes, the right end of the second connecting part and the right end of the third support part are correspondingly provided with screw holes, and

the step of fixedly assembling the triangular supports and the transverse upright supports into a triangle comprises the following steps: fixing the first connecting part and the third supporting part through screws; fixing the second connecting portion with the third supporting portion by the screw;

the transverse upright post support is also provided with a third connecting part and a fourth connecting part, and the left end of the third supporting part extends backwards to form the third connecting part; the right end of the third supporting part extends backwards to form the fourth connecting part,

the third connecting part and the left upright post support are correspondingly provided with screw holes, the fourth connecting part and the right upright post support are correspondingly provided with screw holes, and

the step of fixing the triangle with the left upright support and the right upright support comprises: the third connecting part and the left upright post are supported and fixed through the screw; the fourth connecting part and the right upright post are supported and fixed through the screw;

the triangular support further includes: the flat plate part extends horizontally and rightwards from the front end of the first supporting part; the mounting part extends obliquely backwards from the right end of the flat plate part; the bearing part horizontally extends rightward from the rear end of the mounting part; the second supporting part extends backwards from the right end of the bearing part in an inclined way,

the left inclined rear part of the lower part of the air duct plate is provided with a reinforcing support, the lower end of the mounting part and the reinforcing support are correspondingly provided with screw holes, and

the step of fixing the triangle and the air duct plate comprises the following steps: the mounting portion is fixed to the reinforcing support by the screw.

2. The assembly method according to claim 1, wherein,

the vertical air conditioner indoor unit further comprises: front pillar support and rear pillar support, and

the step of fixing the left upright post support, the right upright post support and the base simultaneously further comprises the following steps: and fixing the front upright post support and the rear upright post support with the base.

3. The assembly method according to claim 2, wherein,

the vertical air conditioner indoor unit further comprises: a heat exchanger configured to exchange heat air entering the cavity, an

The step of fixing the left upright support, the right upright support and the base further comprises: and fixing the heat exchanger with the left upright post support and the right upright post support.

4. A method of assembling as claimed in claim 3, wherein after the step of securing the heat exchanger to the left and right column supports comprises:

and supporting and fixing the air duct plate and the front upright post.

5. The assembly method according to claim 4, wherein,

the vertical air conditioner indoor unit further comprises: a control box configured to control an operation state of the indoor unit of the floor air conditioner, and

the method further comprises the following steps of fixing the triangle with the air duct plate, the left upright post support and the right upright post support respectively: and the control box is fixedly arranged in the space below the air duct plate.

6. The assembly method according to claim 5, wherein,

the vertical air conditioner indoor unit further comprises: a plurality of accessories arranged in the cavity

The step of fixing the control box in the space below the air duct plate further comprises the following steps: and fixedly arranging the accessories in the cavity.

7. The assembly method according to claim 6, wherein,

the housing further includes: left and right panels, an

After the step of fixedly disposing the plurality of accessories within the cavity, further comprising: and fixing the left upright post support with the left panel, and fixing the right upright post support with the right panel.