AU2018250394A1 - Ceiling-mounted air-conditioner indoor-unit system - Google Patents

Abstract

Abstract The disclosure discloses a ceiling-type air-conditioner indoor unit system. An indoor unit (10) is provided in a ceiling (20). The system further includes: a return air inlet (30), provided on a side surface of the ceiling (20); and an air outlet (40), provided on a bottom surface of the ceiling (20). A closeable return air inlet apparatus (31) is provided at the return air inlet (30), and a closeable air outlet apparatus (41) is provided at the air outlet (40). Fig. 1 Fig. 2

Description

invention as defined in the presently appended claims.

AU 2014360043 is the national phase entry in Australia of PCT international application PCT/CN2014/082646 (published as WO 2015/081704 A1). The full disclosure of WO 2015/081704 A1 is incorporated herein by reference.

Technical field of the invention

The disclosure relates to the field of air conditioners, and in particular to a ceiling-type air-conditioner indoor unit system.

Background ofthe invention

With the improvement of people's living standards, decoration is required more and more highly, and hidden air conditioners are more and more welcomed by people Compared with an all-ceiling type air conditioner, a partial-ceiling type air conditioner serving as one of the hidden air conditioners is more space-efficient. Conventional partial-ceiling type hidden indoor units on the market adopt an airflow circulating mode of laterally supplying air which is laterally returned or laterally supplying air which is downwardly returned. The mounting height of a unit is about 2.8m, so that during heating of the unit, after hot air is laterally supplied, the hot air floats over an air-conditioning room by following a principle of thermal expansion, the hot air cannot reach an active area of people, and therefore the thermal comfort of the room is bad. Moreover, engineering aluminium frame type air ports or guide blade plastic type air ports adopted for a traditional unit cannot be closed, insects and dust cannot be prevented from entering the unit, and therefore the reliability of the unit is low.

2018250394 16 Oct 2018

Summary of the invention

The disclosure aims to provide a ceiling-type air-conditioner indoor unit system, which is intended to solve the technical problem of bad thermal comfort of a room in a traditional unit air supply mode.

In accordance with an aspect of the invention, a ceiling-type air-conditioner indoor unit system has an indoor unit provided in a ceiling. The system further comprises a return air inlet, provided on a side surface of the ceiling; an air outlet, provided on a bottom surface of the ceiling; a closeable return air inlet apparatus provided at the return air inlet; and a closeable air outlet apparatus provided at the air outlet, the air outlet apparatus comprising an air output apparatus and an air guide portion movably sleeved inside the air output apparatus in a vertical direction, the air guide portion comprising a side wall, and a first air outlet formed at the bottom of the air guide portion, the air guide portion further comprising a second air outlet, provided on the side wall. When the air guide portion retracts into the air output apparatus, the second air outlet is closed; and when the air guide portion extends out of the air output apparatus, the second air outlet is opened.

The disclosure provides a ceiling-type air-conditioner indoor unit system. An indoor unit may be provided in a ceiling. The system may further comprise: a return air inlet, provided on a side surface of the ceiling; and an air outlet, provided on a bottom surface of the ceiling. A closeable return air inlet apparatus may be provided at the return air inlet, and a closeable air outlet apparatus may be provided at the air outlet.

Furthermore, the air outlet apparatus may comprise an air output apparatus and an air guide portion movably sleeved inside the air output apparatus in a vertical direction.

Furthermore, the air guide portion may comprise a side wall, and a first air outlet may be formed at the bottom of the air guide portion.

Furthermore, the air guide portion may further comprise a second air outlet, provided on the side wall. When the air guide portion retracts into the air output apparatus, the second air outlet may be closed. When the air guide portion extends out of the air output apparatus, the second air outlet may be opened.

Furthermore, the side wall may comprise two first side walls which are provided oppositely and two second side walls which are provided between the two first side walls, and the second air outlet may be provided on at least one of the two first side

2018250394 16 Oct 2018 walls.

Furthermore, a first air outlet and a second air outlet independent of each other may be provided on the air guide portion.

Furthermore, the first air outlet may be provided with an air guide blade. When the air guide blade is closed, the first air outlet is able to be closed by the air guide blade.

Furthermore, the first air outlet may be provided with a plurality of air guide blades. When the air guide blades are closed, the first air outlet is able to be closed by the air guide blades.

Furthermore, the indoor unit may be provided with a cross flow fan, comprising a volute and a fan blade. In a longitudinal section of the cross flow fan, a volute profile of the volute may comprise: a circular arc segment, provided at an air inlet of the fan; and a helix segment, smoothly connected to the circular arc segment and extending towards an air outlet direction of the fan, the helix segment and the circular arc segment being tangent to a first connecting point B.

Furthermore, the volute profile may further comprise a straight-line segment, provided at an air outlet of the cross flow fan, the straight-line segment and the helix segment being tangent to a second connecting point A.

Furthermore, an evaporator may be provided at a return air inlet of an inner cavity of the indoor unit and may be detachably provided in the indoor unit. The return air inlet of the inner cavity of the indoor unit may be configured to enable the evaporator to enter or exit from the inner cavity of the indoor unit.

Furthermore, the indoor unit may be provided with a centrifugal fan and a V-shaped evaporator matched with the centrifugal fan.

Furthermore, a sealing material may be provided at a joint of the indoor unit and the air outlet.

The disclosure has the beneficial effects as follows.

A air outlet direction of the air outlet is arranged to face the ground, so that hot air can be supplied to the lowest position in a room, the thermal comfort of the room is good, the size of a unit is smaller, the space is saved, much decoration space is reserved, and diversified demands are met.

In addition to the aims, features and advantages described above, the disclosure also has other aims, features and advantages. The disclosure will be further described below in detail with reference to the drawings.

2018250394 16 Oct 2018

Brief description of the drawings

The drawings forming a part of the disclosure are intended to provide further understanding of the disclosure. The schematic embodiments and descriptions of the disclosure are intended to explain the disclosure, and do not form improper limits to the disclosure. In the drawings:

Fig. 1 is a diagram of a non-working state of a ceiling-type air-conditioner indoor unit system according to the disclosure;

Fig. 2 is a diagram of air output from a first air outlet of a ceiling-type air-conditioner indoor unit system according to the disclosure;

Fig. 3 is a diagram of air output from a first air outlet and a second air outlet of a ceiling-type air-conditioner indoor unit system according to the disclosure;

Fig. 4 is a diagram of air output from a second air outlet of a ceiling-type air-conditioner indoor unit system according to the disclosure;

Fig. 5 is a diagram of a first air outlet and a second air outlet of a ceiling-type air-conditioner indoor unit system according to the disclosure;

Fig. 6 is a diagram of a single air guide blade of a ceiling-type air-conditioner indoor unit system according to the disclosure;

Fig. 7 is a diagram of a plurality of air guide blades of a ceiling-type air-conditioner indoor unit system according to the disclosure;

Fig. 8 is a diagram of output airflow of a ceiling-type air-conditioner indoor unit system according to the disclosure;

Fig. 9 is a diagram of a sectional structure of an indoor unit of a ceiling-type air-conditioner indoor unit system according to the disclosure; and

Fig. 10 is a diagram of main control features of a volute profile of an indoor unit of a ceiling-type air-conditioner indoor unit system according to the disclosure.

The drawings comprise drawing marks: 10, indoor unit; 11, fan blade; 12, volute profile; 121, circular arc segment; 122, helix segment; 123, straight-line segment; 20, ceiling; 30, return air inlet; 31, return air inlet apparatus; 40, air outlet; 41, air outlet apparatus; 411, air output apparatus; 412, air guide portion; 4120, side wall; 4121, first air outlet; 4122, second air outlet; 42, air guide blade; and 50, sealing material.

Detailed description of the embodiments

The embodiments of the disclosure are described below in detail with reference

2018250394 16 Oct 2018 to the drawings. However, the disclosure can be implemented in multiple different modes limited and covered by claims.

As shown in Fig. 1 to Fig. 10, according to a ceiling-type air-conditioner indoor unit system in the disclosure, an indoor unit 10 is provided in a ceiling 20. The system further comprises: a return air inlet 30, provided on a side surface of the ceiling 20; and an air outlet 40, provided on a bottom surface of the ceiling 20. A closeable return air inlet apparatus 31 is provided at the return air inlet 30, and a closeable air outlet apparatus 41 is provided at the air outlet 40. A air outlet direction of the air outlet is arranged to face the ground, so that hot air can be supplied to the lowest position in a room, the thermal comfort of the room is good, the width of the ceiling 20 is reduced, the space is saved, much decoration space is reserved, and diversified demands are met.

As shown in Fig. 1 to Fig. 5, the indoor unit 10 has the most important features that air is output downwardly; an air outlet of the indoor unit 10 is connected to the lower side of the ceiling 20 to form an air duct, a connection mode may be an first air duct flexible connection mode, or an air pipe specially configured to connect the air outlet of the indoor unit 10 and the air port 40 is designed and manufactured mainly in accordance with the sizes of the air outlet of the indoor unit 10 and the air port 40; one end of the air pipe is connected to the air outlet of the indoor unit 10, and the other end of the air pipe can be connected to the ceiling 20 and communicated with the air port 40, or the air duct is connected to a side, close to the indoor unit 10, of the air port 40; under the two situations, the size of the ceiling 20 will be relatively large; and in order to lower the ceiling 20, a mode of providing soft sponge between the indoor unit 10 and the air port 40 is also invented to achieve sealing, and the soft sponge can be replaced with other soft materials. Components of the air outlet 40 can be fixed to the ceiling 20 by using screws, can be fixed to the ceiling 20 by using clips, can be fixed to the ceiling 20 by the combination of the screws and the clips or can be fixed to the indoor unit 10. When a size difference is larger, the height of the indoor unit 10 can be adjusted by adjusting a lead screw which using lifting the indoor unit 10 at the position of the return air inlet 30 to achieve a needed size, and sealing sponge between the indoor unit 10 and the air outlet 40 also has a tiny height adjustment ability.

As shown in Fig. 1 to Fig. 5, a return air inlet of the indoor unit 10 is provided on the side surface of the indoor unit 10 and matched with an opening in the side

2018250394 16 Oct 2018 surface of the ceiling 20 to form the return air inlet 30, an second air duct for connection can be provided between the return air inlet 30 of the ceiling 20 and the return air inlet of the indoor unit 10, and therefore it can be guaranteed that air is returned only from the position of the return air inlet 30 provided herein; when the partial ceiling 20 is well sealed, the air can be returned without the arrangement of the second air duct; when the indoor unit 10 operates, a centrifugal fan of the indoor unit 10 acts, and a negative pressure is formed at the return air inlet 30; and other parts of the partial ceiling 20, except the return air inlet 30, are sealed, and only the return air inlet 30 is not sealed, so that an air duct flow field is formed between the return air inlet of the indoor unit 10 and the return air inlet 30 of the ceiling 20 naturally by means of a pressure difference. Components of the return air inlet 30 are fixed to the ceiling 20 ordinarily. When the sizes of the ceiling 20 and the air port are quite accurate, the components can also be fixed to the indoor unit 10.

As shown in Fig. 1 to Fig. 5, the closeable return air inlet apparatus 31 is provided at the return air inlet 30. The closeable air outlet apparatus 41 is provided at the air outlet 40. Thus, insects and dust can be prevented from entering the indoor unit 10 when the indoor unit 10 is closed. The return air inlet 30 may be colsed in a single-panel type, a single panel is opened or closed by rotation, and the rotation of the panel is achieved by the associated movement of a connecting rod and a push rod. The return air inlet apparatus 31 and the air outlet apparatus 41 can be closed and opened by the rotation of a plurality of air guide blades. The air outlet 40 can be designed to have a single air guide blade. When the indoor unit 10 works, the blade extends out, and an air guide function is achieved by the rotation of the guide blade.

As shown in Fig. 1 to Fig. 7, the air outlet apparatus 41 comprises an air output apparatus 411 and an air guide portion 412 movably sleeved inside the air output apparatus 411 in a vertical direction. The air guide portion 412 comprises a side wall 4120, and a first air outlet 4121 is formed at the bottom of the air guide portion 412. The first air outlet 4121 and a second air outlet 4122 are provided on the air outlet apparatus 41. The first air outlet 40 is provided with an air guide blade 42, or the first air outlet 40 is provided with a plurality of air guide blades 42. In order to solve the problem that air blown from the indoor unit 10 makes people feel uncomfortable, the air outlet apparatus 41 is provided with double lift-type air outlets namely the first air outlet 4121 and the second air outlet 4122, which can be controlled to be closed and opened or can be partially closed or opened. The first air outlet 4121 can be closed

2018250394 16 Oct 2018 and opened by the rotation of a plurality of air guide blades. The second air outlet

4122 can be closed and opened by lifting, is opened during stretching, and is closed during retraction. The second air outlet 4122 can be unidirectional or multidirectional.

An evaporator is provided at a return air inlet of an inner cavity of the indoor unit 10 and is detachably provided in the indoor unit 10. The return air inlet of the inner cavity of the indoor unit 10 is configured to enable the evaporator to enter or exit from the inner cavity of the indoor unit 10. The indoor unit 10 comprises a shell, the evaporator and a fixing assembly. The shell is provided with an inner shell cavity, an air outlet and the return air inlet. The evaporator is provided in the inner shell cavity and is located at the return air inlet. The fixing assembly detachably fixes the evaporator to the interior of the shell. The return air inlet is configured to enable the evaporator to enter or exit from the inner shell cavity, and the fixing assembly is configured to be suitable for operating from the return air inlet. By means of a structure of configuring the return air inlet to enable the evaporator to enter or exit from the inner shell cavity and configuring the fixing assembly to be suitable for operating from the return air inlet, an operator can disassemble the fixing assembly by means of the return air inlet, so that the evaporator provided at the return air inlet can be taken out, and an internal assembly of the air conditioner is maintained. Furthermore, service ports in the prior art can be saved, thereby achieving the aim of improving the overall appearance effect.

As shown in Fig. 1 to Fig. 4, the indoor unit may be provided with a cross flow fan or a centrifugal fan. The cross flow fan is designed to be in an air suction type, and the centrifugal fan may be designed to be in an air blowing type or an air suction type. Preferably, the cross flow fan is adopted for the indoor unit 10. The indoor unit 10 is provided with a V-shaped evaporator matched with the cross flow fan. The size of the ceiling 20 needed by the indoor unit 10 is small due to the fact that the size of the indoor unit 10 is small and a connecting size between the air outlet 40 and the indoor unit 10 is small. A traditional fan adopts the centrifugal fan, the size of the centrifugal fan is relatively large to achieve the needed air volume of the indoor unit 10, and centrifugal air output is intermittent. In order to more uniformly exchange hot air on the evaporator, it is necessary to reserve a certain uniform air outlet diffusion region between a fan outlet and the evaporator. The newly designed indoor unit 10 is provided with the cross flow fan and the V-shaped evaporator, the cross flow fan achieves the same air volume, the size of the fan is relatively small, the air volume of

2018250394 16 Oct 2018 the cross flow fan is continuous, an air volume diffusion mixed region is not needed, the cross flow fan matchs with a V-shaped opening of the evaporator, and the size of the indoor unit 10 can be reduced.

As shown in Fig. 9 and Fig. 10, the indoor unit 10 is provided with the cross flow fan, comprising a volute and a fan blade 11. In a longitudinal section of the cross flow fan, a volute profile 12 of the volute comprises: a circular arc segment 121, provided at an air inlet of the fan; and a helix segment 122, smoothly connected to the circular arc segment and extending towards an air outlet direction of the fan, the helix segment and the circular arc segment being tangent to a first connecting point B. The volute profile further comprises a straight-line segment 123, provided at an air outlet of the cross flow fan, the straight-line segment 123 and the helix segment 122 being tangent to a second connecting point A. The cross flow fan comprises the volute and the fan blade 11. In the longitudinal section of the fan, the volute profile 12 of the volute comprises: the circular arc segment 121, the helix segment 122 and the straight-line segment 123, wherein the circular arc segment 121 is provided at the air inlet of the fan. The helix segment 122 is smoothly connected to the circular arc segment 121. The straight-line segment 123 is provided at the air outlet of the fan and is smoothly connected to one end, away from the circular arc segment 121, of the helix segment 122.

By smoothly connecting the circular arc segment 121, the helix segment 122 and the straight-line segment 123 at each connecting point, the size of a sudden change structure generated at a joint can be reduced, or even the sudden change structure can be avoided, so that airflow can be prevented from eddying when flowing through the joint, and a ratio of the air volume of the fan to the noise is enabled to meet design requirements.

Preferably, the helix segment 122 and the circular arc segment 121 are tangent to the first connecting point B. The straight-line segment 123 and the helix segment

122 are tangent to the second connecting point A. The three segments are connected end to end to form a smooth airflow guide line, and therefore a turbulent flow is not easily generated when the airflow is flowing, thereby achieving the aim of noise reduction.

It is important to note that the helix segment 122 plays a role in fitting with the fan blade 11 to form a uniform outlet air containing space. The straight-line segment

123 is designed due to the fact that the fan blade 11 is no longer effective after the

2018250394 16 Oct 2018 airflow passes through the helix segment 122, so it is necessary to design the straight-line segment 123 to guide the airflow to steadily flow out. The effects of the circular arc segment 121 are as follows. The helix segment 122 and the straight-line segment 123 of the fan belong to an air outlet segment, an air inlet segment corresponds to the air outlet segment, and an intersection point of the air inlet segment and the air outlet segment is a point closest to the fan blade 11 and also serves as a boundary point of air inlet and air outlet. In order to allow the entry of more streams of airflow in the air inlet segment in the embodiment of the disclosure, the circular arc segment 121 is designed to be of a reverse circular arc structure, namely the circular arc segment 121 bends and extends towards a direction away from the fan blade 11. Certainly, in order to widen the application range of the fan, the circular arc segment can be designed as some other smoothly transitional curves.

As shown in Fig. 1 to Fig. 4, a sealing material 50 is provided at a joint of the indoor unit 10 and the air outlet 40. The fit dimension of the indoor unit 10 and the air port 40 can be reduced by means of sponge since it is difficult to guarantee the avoidance of air leakage when two hard objects are connected. The surface of the air outlet of the newly designed indoor unit 10 is a plane, and the aligned connection of the air port and the air duct can be realized conveniently by sponge-based flexible connection. Compared with a traditional flexibly connected air duct, the ceiling 20 occupies a smaller space.

As shown in Fig. 1, when the indoor unit 10 does not work, the air port can be closed, insects and dust can be prevented from entering the indoor unit 10, and therefore the reliability of the indoor unit 10 is effectively improved.

From the above descriptions, it can be seen that the embodiment of the disclosure achieves the technical effects as follows.

The air outlet direction of the air outlet is set to face the ground, so that the hot air can be supplied to the lowest position in the room, and the thermal comfort of the room is good. When the unit is shut down, the air port is closed, the insects and the dust cannot enter the unit, and therefore the reliability of the unit is high. The size of the unit is smaller, the space is saved, much decoration space is reserved, and the diversified demands are met.

The above is only the preferred embodiments of the disclosure, and is not intended to limit the disclosure. There can be various modifications and variations in the disclosure for those skilled in the art. Any modifications, equivalent replacements, improvements and the like within the spirit and principle of the disclosure shall fall within the protection scope ofthe disclosure.

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2018250394 16 Oct 2018

Claims (10)

1. Claims

   1. A ceiling-type air-conditioner indoor unit system having an indoor unit provided in a ceiling, the system further comprising:

   a return air inlet, provided on a side surface of the ceiling; an air outlet, provided on a bottom surface of the ceiling; a closeable return air inlet apparatus provided at the return air inlet; and a closeable air outlet apparatus provided at the air outlet, the air outlet apparatus comprising an air output apparatus and an air guide portion movably sleeved inside the air output apparatus in a vertical direction, the air guide portion comprising a side wall, and a first air outlet formed at the bottom of the air guide portion, the air guide portion further comprising a second air outlet, provided on the side wall;

   wherein, when the air guide portion retracts into the air output apparatus, the second air outlet is closed; and when the air guide portion extends out of the air output apparatus, the second air outlet is opened.
2. 2. The ceiling-type air-conditioner indoor unit system according to claim 1, wherein the side wall comprises two first side walls which are provided oppositely and two second side walls which are provided between the two first side walls, and the second air outlet is provided on at least one of the two first side walls.
3. 3. The ceiling-type air-conditioner indoor unit system according to claim 1, wherein a first air outlet and a second air outlet independent of each other are provided on the air guide portion.
4. 4. The ceiling-type air-conditioner indoor unit system according to any one of the preceding claims, wherein the first air outlet is provided with an air guide blade, and when the air guide blade is closed, the first air outlet is able to be closed by the air guide blade.
5. 5. The ceiling-type air-conditioner indoor unit system according to any one of claims 1 to 3, wherein the first air outlet is provided with a plurality of air guide blades, and when the air guide blades are closed, the first air outlet is able to be closed by the air guide blades.
6. 6. The ceiling-type air-conditioner indoor unit system according to claim 1, wherein the indoor unit is provided with a cross flow fan, comprising a volute and a fan blade; and in a longitudinal section of the cross flow fan, a volute profile of the volute comprises: a circular arc segment, provided at an air inlet of the cross flow fan; and a helix segment, smoothly connected to the circular arc segment and extending

   2018250394 16 Oct 2018 towards an air outlet direction of the cross flow fan, the helix segment and the circular arc segment being tangent to a first connecting point B.
7. 7. The ceiling-type air-conditioner indoor unit system according to claim 6, wherein the volute profile further comprises a straight-line segment, provided at an air outlet of the cross flow fan, the straight-line segment and the helix segment being tangent to a second connecting point A.
8. 8. The ceiling-type air-conditioner indoor unit system according to claim 1, wherein an evaporator is provided at a return air inlet of an inner cavity of the indoor unit and is detachably provided in the indoor unit; and the return air inlet of the inner cavity of the indoor unit is configured to enable the evaporator to enter or exit from the inner cavity of the indoor unit.
9. 9. The ceiling-type air-conditioner indoor unit system according to claim 1, wherein the indoor unit is provided with a centrifugal fan and a V-shaped evaporator matched with the centrifugal fan.
10. 10. The ceiling-type air-conditioner indoor unit system according to claim 1, wherein a sealing material is provided at a joint of the indoor unit and the air outlet.

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