CN205579752U - Air -conditioner - Google Patents

Abstract

The utility model provides an air -conditioner, include: ducting system is including air inlet duct and air outlet air flue, air conditioning system, with the ducting system intercommunication, air inlet duct and air outlet air flue's is partly in air conditioning system, just air inlet duct and air outlet air flue feed through in air conditioning system, air conditioning system includes refrigerating plant and fan system, refrigerating plant sets up in the air inlet duct in air conditioning system, and fan system configuration is in at air inlet duct and air outlet air flue intercommunication department in the air conditioning system. It is the refrigerating plant of the indoor side of traditional air -conditioner and the fan system outdoor side that all integrates, and traditional air -conditioner is compared to noise that consequently can the indoor side of effectual reduction, and indoor side noise can reduce about 30%, has improved user's experience comfort level greatly.

Description

Air-conditioner

Technical field

This utility model relates to air-conditioning technical field, particularly relates to a kind of air-conditioner.

Background technology

At present, Domestic separating air-conditioner is made up of indoor set and off-premises station, uses connecting tube, power line and order wire etc. to connect between indoor set and off-premises station.Vaporizer, indoor fan system and required structural member and controller it is typically provided with in indoor set；Condenser, compressor, throttling arrangement, outdoor fan system, and required structural member and controller it is typically provided with in off-premises station.Current Domestic separating air-conditioning is owing to being provided with refrigeration system and blower fan system in its indoor set, therefore noise is big, affects the comfort of user.

Utility model content

In consideration of it, be necessary for the big problem of conventional air conditioner noise, it is provided that a kind of reduce the air-conditioner of noise inside air conditioner chamber.

For reaching utility model purpose, it is provided that a kind of air-conditioner, including:

Ducting system, including wind inlet channel and exhaust air flue；

Air conditioning system, connects with described ducting system, and a part for described wind inlet channel and described exhaust air flue is formed in described air conditioning system, and described wind inlet channel connects in described air conditioning system with described exhaust air flue；

Described air conditioning system includes that refrigerating plant and blower fan system, described refrigerating plant are arranged in the wind inlet channel being formed in described air conditioning system, and described blower fan system is arranged on described wind inlet channel and described exhaust air flue connectivity part in described air conditioning system.

Wherein in an embodiment, described air conditioning system also includes:

Groove-like structure or the drainage system of tubular structure, the first opening of described drainage system is connected with the wind inlet channel at described refrigerating plant place, and the second opening points to the heat-exchanger rig in described air conditioning system.

Wherein in an embodiment, described air conditioning system also includes:

Drip tray, is positioned at described wind inlet channel, and is arranged on described refrigerating plant towards the side bottom described air conditioning system, and described first opening of described drainage system is connected with described drip tray, and described second opening points to described heat-exchanger rig.

Wherein in an embodiment, described exhaust air flue includes the first exhaust air flue and the second exhaust air flue；

The wind inlet channel of described ducting system is formed between described first exhaust air flue and described second exhaust air flue；

The connectivity part of described first exhaust air flue and described wind inlet channel is provided with the first blower fan system；

The connectivity part of described second exhaust air flue and described wind inlet channel is provided with the second blower fan system.

Wherein in an embodiment, the sidewall of described first exhaust air flue and described wind inlet channel connectivity part is provided with first and blocks assembly；

Described first blocks assembly includes the first connecting portion being connected with the sidewall of described first exhaust air flue and the first occlusion part being flexibly connected with described first connecting portion, and described first occlusion part can move in the connectivity part of described wind inlet channel and described second exhaust air flue；

It is provided with second on the sidewall of the connectivity part of described second exhaust air flue and described wind inlet channel and blocks assembly；

Described second blocks assembly includes the second connecting portion being connected with the sidewall of described second exhaust air flue and the second occlusion part being flexibly connected with described second connecting portion, and described second occlusion part can move in the connectivity part of described wind inlet channel and described first exhaust air flue.

Wherein in an embodiment, described first connecting portion includes that the first connection inwall and first connects outer wall, and described first connects inwall and described first connects the first chamber resettling being formed with arc between outer wall；

The shape of described first occlusion part and the mating shapes of described first chamber resettling, and can be in described first containing cavity indoor sport；

Described second connecting portion includes that the second connection inwall and second connects outer wall, and described second connects inwall and described second connects the second chamber resettling being formed with arc between outer wall；

The shape of described second occlusion part and the mating shapes of described second chamber resettling, and can be in described second containing cavity indoor sport.

Wherein in an embodiment, described first connects outer wall and described second connects outer wall connection.

Wherein in an embodiment, described first exhaust air flue and described second exhaust air flue are formed with the headspace for placing household electrical appliances away from the side of described air conditioning system.

Wherein in an embodiment, also include:

Display system, is arranged in described headspace, and the housing of described display system is connected with described first exhaust air flue and described second exhaust air flue.

Wherein in an embodiment, the first air outlet of described first exhaust air flue is arranged on the first end face of described housing；

Second air outlet of described second exhaust air flue is arranged on the second end face of described housing.

The beneficial effects of the utility model include:

Above-mentioned air-conditioner, refrigerating plant and blower fan system are all disposed within air conditioning system, i.e. be equivalent to refrigerating plant and the blower fan system of conventional air conditioner indoor are all integrated into outside, therefore the noise of indoor can be effectively reduced, compare conventional air conditioner, indoor noise can reduce about 30%, substantially increases the experience comfort level of user.And the condensed water that in the present embodiment, air-conditioner produces when effectively make use of evaporator heat exchange, condensed water is drained on heat-exchanger rig, enhance the heat exchange of heat-exchanger rig.Meanwhile, family is electrically coupled in the ducting system of air-conditioner, it is achieved household electrical appliances and the integration of air-conditioner, decreases the area occupied that electrical equipment is placed.

Accompanying drawing explanation

Fig. 1 is the structural representation of the air-conditioner in an embodiment.

Accompanying drawing illustrates:

100 ducting systems；

110 wind inlet channels；110a air inlet；

120 exhaust air flue；120a air outlet；121 first exhaust air flue；121a the first air outlet；122 second exhaust air flue；122a the second air outlet；

130 first block assembly；

140 second block assembly；

200 air conditioning systems；

210 refrigerating plants；

220 blower fan systems；221 first blower fan systems；222 second blower fan systems；

230 drainage systems；

240 heat-exchanger rigs；

300 display systems.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, this utility model air-conditioner is further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain this utility model, is not used to limit this utility model.

In one embodiment, as shown in Figure 1, it is provided that a kind of air-conditioner, including: ducting system 100, including wind inlet channel 110 and exhaust air flue 120.Air conditioning system 200, connects with ducting system 100, and a part for wind inlet channel 110 and exhaust air flue 120 is formed in air conditioning system 200, and wind inlet channel 110 connects in air conditioning system 200 with exhaust air flue 120.Air conditioning system includes refrigerating plant 210 and blower fan system 220, and refrigerating plant 210 is arranged in the wind inlet channel 110 being formed in air conditioning system 200, and blower fan system 220 is arranged on wind inlet channel 110 and the exhaust air flue 120 connectivity part in air conditioning system 200.

Air-conditioner in the present embodiment is in use, air conditioning system 200 is arranged in outdoor environment, ducting system 100 part is arranged in indoor environment, i.e. air inlet and the air outlet of ducting system 100 is disposed in the interior in environment, another part of ducting system 100 may pass through body of wall and connects with air conditioning system 200, a part for the ducting system 100 passing body of wall is formed in air conditioning system 200, and be formed at wind inlet channel 110 in air conditioning system 200 and connect with exhaust air flue 120, thus realize indoor air circulation in ducting system 100.Refrigerating plant 210 is arranged in the wind inlet channel 110 being formed in air conditioning system 200, wind inlet channel 110 is for being incorporated into the air of indoor in air conditioning system 200, preferably, refrigerating plant 210 is arranged on the junction of wind inlet channel 110 and air conditioning system 200, so can effectively realize the heat exchange with indoor air.Exhaust air flue 120 is for being transmitted back to the air after heat exchange in heat exchange area, indoor, blower fan system 220 is arranged on wind inlet channel 110 and the exhaust air flue 120 connectivity part in air conditioning system 200, effectively the air after heat exchange can be sent back in the heat exchange area of indoor, improve the heat exchange efficiency of indoor air.Refrigerating plant 210 and the blower fan system 220 of conventional air conditioner indoor are all integrated into outside by the air-conditioner in the present embodiment, therefore the noise of indoor can be effectively reduced, compared with traditional domestic air conditioner, indoor noise can reduce about 30%, substantially increases the experience comfort level of user.

Wherein, refrigerating plant 210 includes that vaporizer, blower fan system 220 include blower fan.

In one embodiment, air conditioning system 200 also includes the drainage system 230 of groove-like structure or tubular structure, first opening of drainage system 230 is connected with the wind inlet channel 110 at refrigerating plant 210 place, and the second opening points to the heat-exchanger rig 240 in air conditioning system 200.

Refrigerating plant 210 can produce condensed water when heat exchange, the condensed water of conventional air conditioner typically the most effectively utilizes, thus result in the waste of the energy, the condensed water produced during refrigerating plant 210 heat exchange is drained on heat-exchanger rig 240 by the drainage system 230 in the present embodiment, enhance the heat exchange of heat-exchanger rig 240, the heat transfer effect comparing traditional heat exchange device of air conditioner improves about 30%, and due to the effective condensed water utilized, therefore also reduces the consumption of the energy.Wherein, heat-exchanger rig 240 includes condenser.

What deserves to be explained is, the shape of drainage system 230 is not limited to the shape that the present embodiment describes, and any that refrigerating plant 210 can change the structure that thermogenetic condensed water drains on heat-exchanger rig 240 is the most permissible, such as platy structure.

Preferably, in one embodiment, air conditioning system 200 also includes: drip tray, it is positioned at wind inlet channel 110, and it being arranged on refrigerating plant 210 towards the side bottom institute's air conditioning system 200, the first opening of drainage system 230 is connected with drip tray, and the second opening points to heat-exchanger rig 240.

Drip tray is arranged on refrigerating plant 210 towards the side bottom institute's air conditioning system 200, i.e. it is arranged on refrigerating plant 210 lower section in use, the condensed water so produced during refrigerating plant 210 heat exchange will gather in water-saving plate, first opening of drainage system 230 is connected with drip tray, second opening points to heat-exchanger rig 240, can effectively the condensed water of the gathering in drip tray be drained on heat-exchanger rig, avoid condensed water to flow out to the wasting of resources that outside is brought, improve the utilization rate of condensed water.Preferably, the second opening of drainage system 230 is provided with spray structure, thus is watered uniformly by condensed water and pour on heat-exchanger rig 240.

In one embodiment, exhaust air flue 120 includes the first exhaust air flue 121 and the second exhaust air flue 122.The wind inlet channel 110 of ducting system 100 is formed between the first exhaust air flue 121 and described second exhaust air flue 122.The connectivity part of the first exhaust air flue 121 and wind inlet channel 110 is provided with the first blower fan system 221.The connectivity part of the second exhaust air flue 122 and wind inlet channel 110 is provided with the second blower fan system 222.

Air-conditioner in the present embodiment the first exhaust air flue 121 when mounted is arranged on the top of body of wall, second exhaust air flue 122 is arranged on the lower section of body of wall, wind inlet channel 110 is between the first exhaust air flue 121 and the second exhaust air flue 122, so indoor air can be produced by boasting from the first exhaust air flue 121 and the second exhaust air flue 122 after refrigerating plant 210 heat exchange, realize upper and lower two air channel air-out, improve air-out comfort level.Preferably, when air-conditioner refrigerating operaton, close the second exhaust air flue 122, the air after refrigeration is blown out from the first exhaust air flue 121；When air conditioner heat-production runs, closing the first exhaust air flue 121, the air after heating blows out from the second exhaust air flue 122, it is achieved the air supply mode that cold wind blows from top to bottom, hot blast wafts from the bottom up, improves air-supply comfort level.

In one embodiment, the sidewall of the first exhaust air flue 121 and wind inlet channel 110 connectivity part is provided with first and blocks assembly 130.First blocks assembly 130 includes the first connecting portion being connected with the sidewall of the first exhaust air flue 121 and the first occlusion part being connected with the first connecting portion motor activity, and the first occlusion part can move in the connectivity part of wind inlet channel 110 and the second exhaust air flue 122.

It is provided with second on the sidewall of the connectivity part of the second exhaust air flue 122 and wind inlet channel 110 and blocks assembly 140.Second blocks assembly 140 includes the second connecting portion being connected with the sidewall of the second exhaust air flue and the second occlusion part being flexibly connected with the second connecting portion, and the second occlusion part can move in the connectivity part of wind inlet channel 110 and the first exhaust air flue 121.

It is provided with first on the sidewall of the first exhaust air flue 121 and wind inlet channel 110 connectivity part and blocks assembly 130, first the first connecting portion blocking assembly 130 and the first occlusion part are flexibly connected, first occlusion part can be moved between wind inlet channel 110 and the second exhaust air flue 122, i.e. first occlusion part can move between C point and the A shown in Fig. 1, thus shelter from the breach between wind inlet channel 110 and the second exhaust air flue 122, air through refrigerating plant 210 can only be sent from the first exhaust air flue 121, it is achieved the upper air-out of air-conditioner.Similar, it is provided with second on the sidewall of the connectivity part of the second exhaust air flue 122 and wind inlet channel 110 and blocks assembly 140, second the second connecting portion blocking assembly 140 and the second occlusion part are flexibly connected, second occlusion part can be moved between wind inlet channel 110 and the first exhaust air flue 121, i.e. second occlusion part can move between the C point shown in Fig. 1 and B point, thus shelter from the breach between wind inlet channel 110 and the first exhaust air flue 121, air through refrigerating plant 210 can only be sent from the second exhaust air flue 122, realize the lower air-out of air-conditioner.To realize the air-out simultaneously up and down of air-conditioner, then control the first occlusion part and the second occlusion part all shrinks back the C point shown in Fig. 1.Wherein, for Degenerate Λ type three level atom, the first occlusion part and the second occlusion part are shutter.

Preferably, the first connecting portion being provided with the first slideway, the first occlusion part is slidably connected by the first slideway and the first connecting portion.Being provided with the second slideway on second connecting portion, the second occlusion part is slidably connected by the second slideway and the second connecting portion.

In one embodiment, the first connecting portion includes that the first connection inwall and first connects outer wall, and first connects inwall and first connects the first chamber resettling being formed with arc between outer wall.The shape of the first occlusion part and the mating shapes of the first chamber resettling, and can be in the first containing cavity indoor sport.

Second connecting portion includes that the second connection inwall and second connects outer wall, and second connects inwall and second connects the second chamber resettling being formed with arc between outer wall.The mating shapes with the second chamber resettling of the second occlusion part, and can be in the second containing cavity indoor sport.

In the present embodiment, the mode that first occlusion part and the first connecting portion are flexibly connected is that the first connecting portion is set to chamber structure, second occlusion part can move in the connectivity part of chamber structure and wind inlet channel 110 and the second exhaust air flue 122, thus reaches to block the effect of the second exhaust air flue air-out.Similar, the connected mode of the second occlusion part and the second connecting portion is identical with the principle of the first occlusion part and the connected mode of the second connecting portion, and here is omitted.

Preferably, in one embodiment, the two ends of the first occlusion part are provided with sphere structure, and the size of sphere structure matches with the size of the first chamber resettling, and the first occlusion part is rolled by sphere structure and the first connecting portion and connects.The two ends of the second occlusion part are also provided with sphere structure, and the size of sphere structure matches with the size of the second chamber resettling, and the second occlusion part is rolled by sphere structure and the second connecting portion and connects.From the point of view of this design designs the structure of slideway relatively, simple in construction, it is easy to implement.

Wherein it is desired to explanation, air conditioning system 200 also includes and the first motor and the second motor, and wherein the first motor and first blocks assembly 130 and connects, and the second motor and second blocks assembly 140 and connects.First to block the first occlusion part in assembly 130 be to move to A point from C point under the traction of the first motor and motion thereof.Similar, second to block the second occlusion part in assembly 140 be to move to B point from C point under the traction of the second motor and motion thereof.

In one embodiment, first connects outer wall and the second connection outer wall connection.

In the above-described embodiments, first blocks assembly 130 and second blocks and can not have common point C between assembly 140, and i.e. first blocks assembly 130 and second blocks and do not connect, as long as being capable of mutual blocking between assembly 140.But first blocks assembly 130 and second blocks when not connecting between assembly 140, if user requires air-out simultaneously up and down, air through refrigerating plant 210 is easy to block assembly 130 and second from first and blocks blowout the breach between assembly 140, so air-out effect and heat transfer effect of indoor air all can be affected, connect outer wall by first and the second connection outer wall connection can effectively solve the problems referred to above, improve air-out effect and the heat transfer effect of indoor air.

In one embodiment, the first exhaust air flue 121 and the second exhaust air flue 122 are formed with the headspace for placing household electrical appliances away from the side of air conditioning system 200.

At present, most of household electrical appliance are all independent one-tenth machines, such as electric refrigerator, TV, air-conditioning, sound equipment etc., these household electrical appliances are both needed to independent placing space and put, so occupy the substantial amounts of interior space, for the interior space that usable floor area is less, the most inapplicable, it is impossible to meet the demand of user.In the present embodiment, the side of the ducting system 100 of air-conditioner is provided with headspace, the size dimension of this headspace can be arranged according to by the size of electrical equipment to be mounted or other apparatus, other household electrical appliances or apparatus are attached in the ducting system 100 of air-conditioner, the area occupied of household electrical appliances can be reduced, it is achieved air-conditioner and the integrated design of other household electrical appliances.

In one embodiment, also including: display system 300, be arranged in headspace, the housing of display system 300 connects with the first exhaust air flue 121 and the second exhaust air flue 122.

In the present embodiment, display system is connected as one with air conditioning system 200 by ducting system 100, it is achieved display system and the integrated design of air-conditioner.The housing of display system 300 is connected with ducting system 100, what deserves to be explained is, the housing of display system 300 can be one-body molded with ducting system, it is also possible to linked together by relevant interface unit when subsequent installation.Wherein, display system 300 includes television set.

In one embodiment, the first air outlet 121a of the first exhaust air flue 121 is arranged on the first end face of housing.Second air outlet 122a of the second exhaust air flue 122 is arranged on the first end face of housing.

When air-conditioner is installed and used, first end face of the housing of display system 300 arranges top, and the second end face is arranged below, and the first end face of housing arranges the first air outlet 121a, the air of the first exhaust air flue 121 conveying blows out from the first air outlet 121a, it is achieved the upper air-out of air-conditioner.In like manner, the second end face of housing being provided with the second air outlet 122a, the air of the second exhaust air flue 122 conveying blows out from the second air outlet 122a, it is achieved the lower air-out of air-conditioner.Preferably, the upper side and lower side of the housing of display system 300 is hollow channel, hollow channel and first exhaust air flue 121 of upside connect, hollow channel and second exhaust air flue 122 of downside connect, on the upside of housing, the first air outlet is set in the one side at the display surface place of display system 300, second air outlet is set on the downside of housing in the one side at the display surface place of display system 300, improves air-out comfortableness.Wherein, air outlet 120a (including the first air outlet 121a and the second air outlet 122a) is equally distributed aperture, the shape of aperture can be strip, circle or other shapes, realize the uniform air-out of air after heat exchange, improve the comfort of user, and be also improved the effect that air-conditioner is attractive in appearance.

What deserves to be explained is, between air inlet 110a and the display system 300 of wind inlet channel 110, be reserved with specific space, it is simple to indoor air is sent in wind inlet channel 110.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed several embodiments of the present utility model, and it describes more concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that, for the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these broadly fall into protection domain of the present utility model.Therefore, the protection domain of this utility model patent should be as the criterion with claims.

Claims (10)

1. an air-conditioner, it is characterised in that including:

Ducting system (100), including wind inlet channel (110) and exhaust air flue (120)；

Air conditioning system (200), connect with described ducting system (100), a part for described wind inlet channel (110) and described exhaust air flue (120) is formed in described air conditioning system (200), and described wind inlet channel (110) connects in described air conditioning system (200) with described exhaust air flue (120)；

Described air conditioning system (200) includes refrigerating plant (210) and blower fan system (220), described refrigerating plant (210) is arranged in the wind inlet channel being formed in described air conditioning system (200), and described blower fan system (220) is arranged on described wind inlet channel (110) and the described exhaust air flue (120) connectivity part in described air conditioning system (200).

Air-conditioner the most according to claim 1, it is characterised in that described air conditioning system (200) also includes:

The drainage system (230) of groove-like structure or tubular structure, first opening of described drainage system (230) is connected with the wind inlet channel (110) at described refrigerating plant (210) place, and the second opening points to the heat-exchanger rig (240) in described air conditioning system (200).

Air-conditioner the most according to claim 2, it is characterised in that described air conditioning system (200) also includes:

Drip tray, it is positioned at described wind inlet channel (110), and it is arranged on the described refrigerating plant (210) side towards described air conditioning system (200) bottom, described first opening of described drainage system (230) is connected with described drip tray, and described second opening points to described heat-exchanger rig (240).

Air-conditioner the most according to claim 1, it is characterised in that described exhaust air flue (120) includes the first exhaust air flue (121) and the second exhaust air flue (122)；

The wind inlet channel (110) of described ducting system (100) is formed between described first exhaust air flue (121) and described second exhaust air flue (122)；

The connectivity part of described first exhaust air flue (121) and described wind inlet channel (110) is provided with the first blower fan system (221)；

The connectivity part of described second exhaust air flue (122) and described wind inlet channel (110) is provided with the second blower fan system (222).

Air-conditioner the most according to claim 4, it is characterised in that be provided with first on the sidewall of described first exhaust air flue (121) and described wind inlet channel (110) connectivity part and block assembly (130)；

Described first blocks assembly (130) includes the first connecting portion being connected with the sidewall of described first exhaust air flue and the first occlusion part being flexibly connected with described first connecting portion, and described first occlusion part can move in the connectivity part of described wind inlet channel (110) and described second exhaust air flue (122)；

It is provided with second on the sidewall of the connectivity part of described second exhaust air flue (122) and described wind inlet channel (110) and blocks assembly (140)；

Described second blocks assembly (140) includes the second connecting portion being connected with the sidewall of described second exhaust air flue and the second occlusion part being flexibly connected with described second connecting portion, and described second occlusion part can move in the connectivity part of described wind inlet channel (110) and described first exhaust air flue (121).

Air-conditioner the most according to claim 5, it is characterised in that described first connecting portion includes that the first connection inwall and first connects outer wall, and described first connects inwall and described first connects the first chamber resettling being formed with arc between outer wall；

The shape of described first occlusion part and the mating shapes of described first chamber resettling, and can be in described first containing cavity indoor sport；

Described second connecting portion includes that the second connection inwall and second connects outer wall, and described second connects inwall and described second connects the second chamber resettling being formed with arc between outer wall；

The shape of described second occlusion part and the mating shapes of described second chamber resettling, and can be in described second containing cavity indoor sport.

Air-conditioner the most according to claim 6, it is characterised in that described first connects outer wall and described second connects outer wall connection.

Air-conditioner the most according to claim 4, it is characterized in that, described first exhaust air flue (121) and described second exhaust air flue (122) are formed with the headspace for placing household electrical appliances away from the side of described air conditioning system (200).

Air-conditioner the most according to claim 8, it is characterised in that also include:

Display system (300), is arranged in described headspace, and the housing of described display system (300) is connected with described first exhaust air flue (121) and described second exhaust air flue (122).

Air-conditioner the most according to claim 9, it is characterised in that first air outlet (121a) of described first exhaust air flue (121) is arranged on the first end face of described housing；

Second air outlet (122a) of described second exhaust air flue (122) is arranged on the second end face of described housing.