CN219756514U - Indoor air conditioner - Google Patents

Abstract

An indoor air conditioner according to the present utility model is fixed on the indoor top, including: the air conditioner main unit is installed and fixed on the indoor top; the air pipe is fixed on one surface of the air conditioner host; an air outlet panel fixed to a lower portion of the duct by a screw for blowing out the air-conditioned air; and the connecting component is arranged between the air pipe and the air outlet panel, and hooks the air outlet panel when the air outlet panel falls off so as not to fall off.

Description

Indoor air conditioner

Technical Field

The utility model relates to the technical field of air conditioners, in particular to an indoor air conditioner fixed at the indoor top.

Background

With the rapid development of air conditioning technology and continuous optimization of home design, the air conditioner not only needs to meet the common refrigeration and heating requirements, but also needs to be matched with the indoor space. Especially for the house type with smaller space, floor type air conditioner and wall hanging type air conditioner occupy large space, so that the indoor space is more crowded. Under such a demand, a so-called buried air conditioner fixed to the indoor roof has been attracting attention. The indoor unit of the buried air conditioner is installed or embedded at the indoor top, the occupied indoor space is greatly reduced compared with that of a floor type air conditioner and a wall type air conditioner, and the buried air conditioner is more attractive in household design, so that the buried air conditioner is increasingly popular with users.

However, there are the following problems in the installation work of the buried air conditioner, namely: in the installation work of the buried air conditioner, the air outlet panel is usually installed after the air conditioner is installed. At this time, the worker who carries out the installation work needs to raise his head to carry out aerial work, and this time needs to additionally prepare the preassembly device, prefix the air-out panel through the preassembly device, and then install the screw again and carry out complete fixation. Or, an additional staff member is needed to assist in pre-fixing the air outlet panel, and another staff member is needed to install screws for complete fixing. This will lead to an increase in the cost of installation of the buried air conditioner and detract from the convenience of the installation work of the buried air conditioner.

Further, if the air outlet panel is fixed only with screws, there is a problem in that: in the subsequent long-term use process, the screw is likely to be loosened, so that the risk that the air outlet panel falls down exists, and personal injury is further likely to be caused. Therefore, in the space-filling air conditioner, an anti-drop device is required to be additionally arranged, accordingly, the cost of the space-filling air conditioner is increased, and the complexity of the internal structure of the space-filling air conditioner is increased.

Disclosure of Invention

The present utility model has been made to solve the above problems, and an object of the present utility model is to provide an indoor air conditioner fixed to an indoor ceiling, which is capable of connecting an air duct and an air outlet panel by providing a connection member, thereby eliminating the need to additionally provide a pre-assembly device or to add additional staff, improving convenience of installation work of the indoor air conditioner, and reducing installation cost.

In addition, in the utility model, the connecting member is arranged in a simple structure, so that the falling risk of the air outlet panel is avoided, an additional falling prevention device is not required, the manufacturing cost of the indoor air conditioner is reduced, the structure of the indoor air conditioner is simplified, and the safety guarantee is improved.

An indoor air conditioner according to the present utility model is fixed on the indoor top, including:

the air conditioner main unit is installed and fixed on the indoor top;

the air pipe is fixed on one surface of the air conditioner host;

an air outlet panel fixed to a lower portion of the duct by a screw for blowing out the air-conditioned air; and

the connecting component is arranged between the air pipe and the air outlet panel, and hooks the air outlet panel when the air outlet panel falls off so that the air outlet panel does not fall off.

Further, the air outlet panel is provided with more than one screw hole for fastening the screw,

the connecting member includes a hook portion and a U-shaped portion,

the hook part hooks the edge of the screw hole, and the U-shaped part is in metallographic contact with the metal plate of the air pipe.

Further, in the connection member, an inclined portion is provided at an end portion of the U-shaped portion.

Further, when the air outlet panel is installed on the air pipe, the connecting member is rotated clockwise until the U-shaped part of the connecting member is completely abutted with the sheet metal of the air pipe,

when the air outlet panel is detached from the air pipe, the connecting member is rotated anticlockwise until the U-shaped part of the connecting member is completely separated from the metal plate of the air pipe.

Further, when the air outlet panel is completely fastened to the lower portion of the duct by the screw, the connection member is in a relaxed state.

Further, the connection member is made of a material having strength capable of hooking the air outlet panel so as not to fall down, and having elasticity and being not easy to rust.

Further, rubber blocks are arranged around the lower part of the air pipe.

Further, the sheet metal of the air pipe is covered with a rubber block.

According to the indoor air conditioner, the preassembling device is not required to be additionally arranged or extra staff is not required to be added, so that the convenience of the installation operation of the indoor air conditioner can be improved, and the installation cost can be reduced. And moreover, an anti-drop device is not required to be additionally arranged, so that the manufacturing cost of the indoor air conditioner can be reduced, the structure of the indoor air conditioner is simplified, and the safety guarantee is improved.

Drawings

Fig. 1 (a) is a perspective view illustrating an indoor air conditioner fixed to an indoor ceiling.

Fig. 1 (b) is a perspective view showing a right-angle duct and an air outlet panel provided in an indoor air conditioner fixed to the indoor ceiling.

Fig. 2 is a schematic view showing a specific structure of the air outlet panel.

Fig. 3 is a schematic view showing a specific structure of the right-angle duct.

Fig. 4 is a perspective view showing a specific structure of a connection member according to the present utility model.

Fig. 5 (a), 5 (b) and 5 (c) are side cross-sectional views showing the mounting method and the different states of the connecting member in the indoor air conditioner according to the present utility model.

Detailed Description

The utility model will be described in more detail hereinafter with reference to specific embodiments shown in the drawings. A block diagram in the drawings shows a structure according to an embodiment of the present utility model. The drawings are only for the purpose of illustrating preferred embodiments and are not to be construed as limiting the utility model. Also, like reference numerals are used to designate like parts throughout the figures.

Furthermore, various advantages and benefits of the present utility model will become apparent to those of ordinary skill in the art upon reading the following detailed description of the specific embodiments. It should be understood, however, that the present utility model may be embodied in various forms and should not be limited to the embodiments set forth herein. The following examples are provided to provide a more thorough understanding of the present utility model. Unless otherwise defined, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model belongs.

Fig. 1 (a) is a perspective view showing an indoor air conditioner 100 fixed to the indoor ceiling. The indoor air conditioner 100 is fixed on the indoor top and comprises an air conditioner host 101, a right-angle air pipe 102 and an air outlet panel 103.

The indoor air conditioner 100 is, for example, a ceiling air conditioner in which an air conditioner main body 101 is installed and fixed to the indoor ceiling. A right-angle duct 102 is fixed to the air outlet side of the air conditioner main 101, and the right-angle duct 102 is configured to rotate the air-conditioned air by 90 degrees. An air outlet panel 103 is provided at the lower part of the right-angled duct 102.

Specifically, fig. 1 (b) is a perspective view showing a right-angled duct 102 and an air outlet panel 103 provided in an indoor air conditioner 100 fixed to the indoor ceiling.

As shown in fig. 1 (b), an air outlet panel 103 is fixed to the lower portion of the right-angled duct 102 by screws for blowing out the conditioned air.

Fig. 2 is a schematic diagram showing a specific structure of the air outlet panel 103. Fig. 3 is a schematic diagram showing a specific structure of the right-angle duct 102. As shown in fig. 2, the air outlet panel 103 is provided with one or more screw holes h1,

for screw tightening. A square through hole f1 is provided beside the edge of the screw hole h1 for positioning at the time of mounting 5. As shown in fig. 3, an air outlet panel 103 is also provided on the lower sheet metal of the right-angle duct 102

The matched square through holes are denoted as f2, and the two square through holes f1 and f2 are aligned and fastened by using the screw holes h1, thereby fixing the air outlet panel 103 below the right-angled duct 102.

In addition, as shown in fig. 3, a thick glue block J1 may be added around the lower portion of the right-angle air duct 102.

In some embodiments, a thick glue block J1 can be added to the metal plate of the right-angle air duct 102.

0 in the case of the prior art, the air outlet panel 103 is fixed to the lower part of the right-angled duct 102 by means of screws only

A portion. When the installation work is carried out, the worker needs to raise his head to carry out the aerial work, so that an additional pre-assembly device is needed, the air outlet panel 103 is pre-fixed by the pre-assembly device, and then the air outlet panel is completely fixed by installing screws. Alternatively, an additional staff member is needed to assist in pre-fixing the air outlet panel 103, and the other staff member is needed to perform the pre-fixing

The outer staff is provided with screws for complete fixation. This leads to an increase in the installation cost of the indoor air conditioner 100, 5, and detracts from the convenience of the installation work.

Further, since the air outlet panel 103 is fixed using only screws, there is a problem in that:

in the subsequent long-term use process, the screw is likely to be loosened, so that the risk that the air outlet panel falls down exists, and personal injury is further likely to be caused. In order to avoid this, it is generally necessary to additionally add drop protection

The device, in turn, will result in an increase in the cost of the indoor air conditioner 100 and an increase in the complexity of its internal structure. 0 thus, in the present utility model, the indoor air conditioner 100 further includes a connection member 104 provided at

The right-angle air pipe 102 is connected with the air outlet panel 103 between the right-angle air pipe 102 and the air outlet panel 103, and hooks the air outlet panel 103 when the air outlet panel 103 falls down so as not to fall down. The material of which the connecting member 104 is made has strength to catch the air outlet panel from falling off, is elastic, and is not prone to rust, for example, a spring wire may be used.

Fig. 5 is a perspective view showing a specific structure of the connecting member 104 according to the present utility model. As shown in figure 4 of the drawings,

the connecting member 104 includes a hook portion g11 and a U-shaped portion g12. Hook g11 and screw hole h1 of air outlet panel 103

The U-shaped part g12 is in contact with the metal plate of the right-angle air pipe 102 in a metallographic manner. In some embodiments, the end of the connection member 104 may be configured to be bent upward at an angle, thereby forming the inclined portion g13. By adopting such a structure, the contact area between the connection member 104 and the metal plate of the right-angle duct 102 can be increased. In addition, by providing the inclined portion g13 at the end portion of the connection member 104, it is possible to prevent the connection member from damaging the glue block when the glue block is detached when the metal plate of the right-angle air duct 102 is covered with the glue block.

Fig. 5 (a), 5 (b), and 5 (c) are side cross-sectional views showing the manner of mounting the connection member 104 and the different states during the mounting in the indoor air conditioner 100 according to the present utility model. Fig. 5 (a) to 5 (b) to 5 (c) show the order of mounting the connection member 104 (clockwise rotation in the arrow direction) in order, and conversely fig. 5 (c) to 5 (b) to 5 (a) show the order of dismounting the connection member 104 (arrow direction opposite to the arrow direction at the time of mounting, i.e., counterclockwise rotation) in order.

When the air outlet panel 103 is mounted on the right-angle air duct 102, the connecting member 104 is rotated clockwise until the U-shaped portion g12 is completely abutted against the metal plate of the right-angle air duct 102, and therefore the hook portion g11 of the connecting member 104 hooks the edge of the screw hole h1, and the U-shaped portion g12 is in metallographic contact with the metal plate of the right-angle air duct 102.

Specifically, immediately after the air outlet panel 103 is inserted into the lower portion of the right-angle duct 102, the hook portion g11 of the connecting member 104 hooks the edge of the screw hole h1, and the U-shaped portion g12 faces the inside of the right-angle duct 102 in parallel with the insertion direction.

Then, the connecting member 104 is rotated clockwise so that the U-shaped portion g12 is inclined with respect to the insertion direction, and approaches and contacts the metal plate of the right-angle duct 102.

Then, the connecting member 104 is continuously rotated clockwise, so that the U-shaped portion g12 of the connecting member 104 is completely abutted against the metal plate of the right-angle air duct 102 (completely abutted against the glue block in the case that the glue block is covered on the metal plate), and the connecting member 104 is in a relaxed state.

Then, the air outlet panel 103 is completely fastened to the lower portion of the right-angled duct 102 by screws, thereby completing the installation of the connection member 104 and the air outlet panel 103.

In the subsequent long-term use process, when the screw loosens, the air outlet panel 103 can not move leftwards and rightwards but can only move downwards, and at this time, the connecting member 104 can hook the air outlet panel 103 to avoid personal injury caused by falling.

When the air outlet panel 103 is detached from the right-angle air duct 102, the connecting member 104 is rotated counterclockwise until the U-shaped portion g12 thereof is completely separated from the metal plate of the right-angle air duct 102.

In the indoor air conditioner according to the present utility model, the rectangular duct is described as an example, but the present utility model is not limited thereto. Depending on the structure of the air conditioner, other types of duct for blowing may be used as long as the duct can abut against or overlap the connection member.

In the indoor air conditioner according to the present utility model, the connecting member is made of a spring wire, but is not limited thereto. Also, the connection member is not limited to the structure shown in the present utility model, and any member may be used and any structure may be adopted as long as it is capable of connecting the duct and the air outlet panel and hooking the air outlet panel so as not to fall when the members for fastening the duct and the air outlet panel are loosened.

In addition, because the thick glue blocks are arranged on the periphery of the lower part of the air pipe, after the air outlet panel is installed on the lower part of the air pipe, the thick glue blocks are positioned on two sides of the air outlet panel, so that the air outlet panel can be prevented from moving sideways to cause the connecting members to fall off while air leakage is prevented, and the safety is ensured more reliably.

In addition, through setting up the slope at the tip of connecting element to can avoid connecting element damage the glue piece when dismantling when covering the glue piece on the panel beating of tuber pipe.

In addition, through further covering thick glue piece on the panel beating of tuber pipe, can further increase the frictional force between the panel beating of connecting elements and tuber pipe to the security is ensured more reliably.

As described above, in the indoor air conditioner according to the present utility model, the right-angle duct and the air outlet panel are connected by the connection member, so that the installation work can be completed without additionally providing a pre-assembly device or adding an additional worker, and even if the worker who performs the installation loosens his hands during the installation, the air outlet panel does not fall, facilitating the screw fastening by the worker, thereby improving the convenience of the installation work of the indoor air conditioner and reducing the installation cost.

In addition, as the connecting component is arranged in a simple structure, the falling risk of the air outlet panel is avoided, so that an additional falling prevention device is not required, the manufacturing cost of the indoor air conditioner is reduced, the structure of the indoor air conditioner is simplified, and the safety guarantee is improved.

Description of the reference numerals

100 indoor air conditioner

101 air conditioner host

102 right-angle air pipe

103 air-out panel

104 connecting member

h1 screw hole

j1 glue block

f1 square through hole

g11 hook portion

g13 inclined portion.

Claims (8)

1. An indoor air conditioner fixed at an indoor top, comprising:

the air conditioner main unit is installed and fixed on the indoor top;

the air pipe is fixed on the air outlet side of the air conditioner host;

an air outlet panel fixed to a lower portion of the duct by a screw for blowing out the air-conditioned air; and

the connecting component is arranged between the air pipe and the air outlet panel, and hooks the air outlet panel when the air outlet panel falls off so that the air outlet panel does not fall off.

2. The indoor air conditioner according to claim 1, wherein,

the air outlet panel is provided with more than one screw hole for fastening the screw,

the connecting member includes a hook portion and a U-shaped portion,

the hook part hooks the edge of the screw hole, and the U-shaped part is in metallographic contact with the metal plate of the air pipe.

3. The indoor air conditioner according to claim 2, wherein,

in the connection member, an inclined portion is provided at an end portion of the U-shaped portion.

4. The indoor air conditioner according to claim 2, wherein,

when the air outlet panel is installed on the air pipe, the connecting component is rotated clockwise until the U-shaped part of the connecting component is completely abutted with the metal plate of the air pipe,

when the air outlet panel is detached from the air pipe, the connecting member is rotated anticlockwise until the U-shaped part of the connecting member is completely separated from the metal plate of the air pipe.

5. The indoor air conditioner according to claim 1, wherein,

when the air outlet panel is completely fastened to the lower part of the air pipe through the screw, the connecting member is in a loose state.

6. The indoor air conditioner according to claim 1 to 5, wherein,

the connecting member is made of a material which has strength capable of hooking the air outlet panel so that the air outlet panel does not fall off, is elastic and is not easy to rust.

7. The indoor air conditioner according to claim 1 to 5, wherein,

glue blocks are arranged around the lower part of the air pipe.

8. The indoor air conditioner according to claim 1 to 5, wherein,

the sheet metal of tuber pipe is covered with the glue piece.