CN203857551U - Air-conditioner indoor unit - Google Patents

Abstract

The utility model provides an air-conditioner indoor unit and aims to solve the problem in the prior art that two air duct components of an air-conditioner indoor unit need to be cleaned. The air-conditioner indoor unit comprises an enclosure, a heat exchanger and air duct components, wherein the air duct components include a first air duct component with a first airflow channel and a second air duct component with a second airflow channel; the air-conditioner indoor unit also comprises a first cleaning component used for cleaning the first air duct component by using cleaning fluid, and a second cleaning component used for cleaning the second air duct component by using the cleaning fluid. With the adoption of the two sets of cleaning components, the first cleaning component and the second cleaning component are used for respectively cleaning the first air duct component and the second air duct component, so that the first air duct component and the second air duct component can be cleaned in sequence or simultaneously, further, the first and second air duct components also can be cleaned independently, the convenience in use is realized, and the operation is simple.

Description

Air conditioner room unit

Technical field

The utility model belongs to air-conditioning technical field, relates in particular to a kind of air conditioner room unit.

Background technology

Air conditioner room unit, as a kind of household electrical appliance, has been applied to each average family gradually.Generally air conditioner room unit is installed in indoor; although indoor environment is better; but in the situation that it works long hours; because constantly absorbing air conditioner room unit ambient air, it carries out heat exchange; thereby make airborne dust be adsorbed in gradually in air inlet system; such as in tubular wine wheel formula air conditioner room unit; in the air channel of the tubular wine wheel in its ducting assembly and spiral case part, usually accumulation has dust; in the situation that not clearing up for a long time; be easy to grow the microorganisms such as bacterium, affect the healthy of people.At present, for the air conditioner room unit with two ducting assemblies, how to realize two of air conditioner room unit ducting assemblies are cleaned and become industry problem demanding prompt solution.

Utility model content

The purpose of this utility model is to provide a kind of air conditioner room unit, and by cleaning assembly is set in air conditioner room unit, being intended to solve cannot be to two of air conditioner room unit problem that ducting assembly cleans in prior art.

The utility model is to realize like this, a kind of air conditioner room unit comprises housing and is installed on heat exchanger and the ducting assembly in described housing, described ducting assembly comprises that first ducting assembly with the first gas channel and second ducting assembly with the second gas channel, described air conditioner room unit also comprise and utilizes the first cleaning assembly that cleaning fluid cleans described the first ducting assembly and the second cleaning assembly that utilizes described cleaning fluid to clean described the second ducting assembly.

Further, described the first cleaning assembly comprises the first outlet pipe of stretching in described housing and is communicated with and provides to described the first outlet pipe the first actuator of described cleaning fluid, described the first outlet pipe to comprise with described the first outlet pipe described cleaning fluid is injected into the first delivery port on described the first ducting assembly; Described the second cleaning assembly comprises the second outlet pipe of stretching in described housing and is communicated with and provides to described the second outlet pipe the second actuator of described cleaning fluid, described the second outlet pipe to comprise with described the second outlet pipe described cleaning fluid is injected into the second delivery port on described the second ducting assembly.

Further, described the first cleaning assembly also comprises that the two-port of described the first steam generator is communicated with described the first actuator and described the first outlet pipe respectively for heating described cleaning fluid or making described cleaning fluid produce the first steam generator of steam; Described the second cleaning assembly also comprises that the two-port of described the second steam generator is communicated with described the second actuator and described the second outlet pipe respectively for heating described cleaning fluid or making described cleaning fluid produce the second steam generator of steam.

Further, described cleaning part also comprises for accepting the drip tray of the described cleaning fluid after cleaning, be sheathed on first rubber sleeve and the second rubber sleeve that is sheathed on described the second outlet pipe outer wall of described the first outlet pipe outer wall, described drip tray is provided with the discharge outlet for the cleaning fluid after cleaning is derived, the first through hole passing for described the first outlet pipe and the second through hole passing for described the second outlet pipe, described the first rubber sleeve is embedded between described the first outlet pipe and the hole wall of described the first through hole, described the second rubber sleeve is embedded between described the second outlet pipe and the hole wall of described the second through hole.

Further, described cleaning part also comprises for depositing the water tank of described cleaning fluid, between described the first actuator and described the second actuator and described water tank, by mozzle, is connected.

Further, described ducting assembly also comprises for fixedly mounting the back cover member of described outlet pipe, and described back cover member comprises that two are oppositely arranged and respectively towards the water conservancy diversion side plate of described the first gas channel and described the second gas channel.

Further, described the first ducting assembly is positioned at the first water conservancy diversion sidewall and the first snail tongue of described the first relative both sides of gas channel, described the second ducting assembly comprises the second water conservancy diversion sidewall and the second snail tongue that is positioned at described the second relative both sides of gas channel, and a side of described the first water conservancy diversion sidewall and described the second water conservancy diversion sidewall interconnects.

Further, the first driver part that described the first ducting assembly also comprises the first wind wheel part of the porch that is positioned at described the first gas channel and drives described the first wind wheel part to rotate, the second driver part that described the second ducting assembly also comprises the second wind wheel part of the porch that is positioned at described the second gas channel and drives described the second wind wheel assembly to rotate, the length direction of described the first wind wheel part, described the second wind wheel part, described the first water conservancy diversion sidewall, described the second water conservancy diversion sidewall, described the first snail tongue and described the second snail tongue is parallel to each other.

Further, the 3rd driver part that described the first ducting assembly also comprises first conducting element in the exit that is arranged at described the first gas channel and drives described the first conducting element to rotate; Described the second ducting assembly also comprises the 4 wheel driven dynamic component that is arranged at second conducting element in described the second gas channel exit and drives described the second conducting element to rotate.

Further, described the first conducting element comprises by described the 3rd driver part and drives the first baffle of its rotation, the 5th driver part that is rotationally connected with the second baffle of described the first baffle and drives described the second baffle to rotate; Described the second conducting element includes the 3rd baffle that described 4 wheel driven dynamic component drives its rotation, the 6th driver part that is rotationally connected with the 4th baffle of described the 3rd baffle and drives described the 4th baffle to rotate.

The utility model with respect to the technique effect of prior art is: this air conditioner room unit utilizes two cover cleaning assemblies, the first cleaning assembly and the second cleaning assembly clean the first ducting assembly and the second ducting assembly respectively, can realize the priority of the first ducting assembly and the second ducting assembly or clean simultaneously, also can realize the independent cleaning to the first ducting assembly and the second ducting assembly, easy to use, simple to operate.

Accompanying drawing explanation

Fig. 1 is the stereogram of the air conditioner room unit that provides of the utility model embodiment.

Fig. 2 is the three-dimensional exploded view of the air conditioner room unit of Fig. 1.

Fig. 3 is the three-dimensional exploded view of cleaning assembly in Fig. 2.

Fig. 4 is the location diagram of back cover member and outlet pipe in Fig. 2.

Fig. 5 is the another location diagram of back cover member and outlet pipe in Fig. 2.

Fig. 6 is the cross sectional view of the air conditioner room unit of Fig. 1.

Fig. 7 is the cross sectional view of the air conditioner room unit of Fig. 1.

Fig. 8 is the stereogram of the first conducting element and the second conducting element in Fig. 2.

The specific embodiment

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

Please refer to Fig. 1 to Fig. 3, the air conditioner room unit that the utility model embodiment provides comprises housing 10 and is installed on heat exchanger 40 and the ducting assembly 20 in described housing 10.This housing 10 comprise front panel 11 and with the common backboard 12 that forms spatial accommodation (not indicating) of front panel 11, front panel 11 arches upward and on backboard 12, forms the first space 120 and on front panel 11, form second space 110 with backboard 12 is opposing, and described ducting assembly 20 is contained in described the first space 120 and second space 110.In described housing 10, be formed with chamber, air channel 13 and accommodating cavity 14, described heat exchanger 40, described air-duct spiral case 22 and described tubular wine wheel 23 are arranged in chamber, described air channel 13, part or all that chamber, described air channel 13 is described spatial accommodation.Described ducting assembly 20 comprises first ducting assembly 21 with the first gas channel 201 and second ducting assembly 22 with the second gas channel 202, and described air conditioner room unit also comprises and utilizes the first cleaning assembly 30 that cleaning fluid cleans described the first ducting assembly 21 and the second cleaning assembly 30 that utilizes described cleaning fluid to clean described the second ducting assembly 22.Preferably, described cleaning fluid is at least one in rinse water, cleaning solution and air freshener.This air conditioner room unit utilizes 30 pairs of the first ducting assemblies 21 of two cover cleaning assemblies and the second ducting assembly 22 to clean, utilize the first cleaning assembly 30 to clean the first ducting assembly 21 and utilize the second cleaning assembly 30 to clean the second ducting assembly 22, be conducive to realize the independent cleaning to the first ducting assembly 21 and the second ducting assembly 22, and can to the first ducting assembly 21 and the second ducting assembly 22, clean selectively, easy to use, simple to operate.

In this embodiment, described cleaning fluid is running water or pure water, or is added with flavouring agent or is added with the cleaning agent of other additives.

Please refer to Fig. 2 and Fig. 3, further, described the first cleaning assembly 30 comprises the first outlet pipe 311 of stretching in described housing 10 and is communicated with and provides to described the first outlet pipe 311 the first actuator 320 of described cleaning fluid, described the first outlet pipe 311 to comprise with described the first outlet pipe 311 described cleaning fluid is injected into the first delivery port 3110 on described the first ducting assembly 21; Described the second cleaning assembly 30 comprises the second outlet pipe 312 of stretching in described housing 10 and is communicated with and provides to described the second outlet pipe 312 the second actuator 321 of described cleaning fluid, described the second outlet pipe 312 to comprise with described the second outlet pipe 312 described cleaning fluid is injected into the second delivery port 3120 on described the second ducting assembly 22.Understandably, described the first delivery port 3110 and described the second delivery port 3120 can be the mesh being arranged at respectively on described the first outlet pipe 311 and described the second outlet pipe 312, or be communicated with and have respectively the first shower nozzle 37 and second shower nozzle 37 of spout 370 with described the first outlet pipe 311 and described the second outlet pipe 312, and the opening direction of described spout 370 is towards described the first ducting assembly 21 and the second ducting assembly 22.This air conditioner room unit is by stretching into the first outlet pipe 311 in housing 10, and utilize the first outlet pipe 311 that cleaning fluid is injected on the first ducting assembly 21, and by the second outlet pipe 312 is stretched in housing 10, and utilize the second outlet pipe 312 that cleaning fluid is injected on the second ducting assembly 22, in cleaning process, can select one of them work in the first cleaning assembly 30 and the second cleaning assembly 30, or make the first cleaning assembly 30 and the second successively work of cleaning assembly 30 or work simultaneously, to realize the automatic cleaning to the first ducting assembly 21 and the second ducting assembly 22, simple to operate, easy to use.

Please refer to Fig. 2 to Fig. 5, in this embodiment, the first actuator 320 in described cleaning assembly 30 and the second actuator 321, all can adopt water pump, its control mode is automatically controlled, in the internal circuit board of air conditioner room unit, be provided for controlling the control circuit of the first actuator 320 and the second actuator 321 work, and the gauge tap of this control circuit is located in the control panel (not shown) of housing 10, and by this control circuit, can regulate the power of the first actuator 320 and the second actuator 321, thereby change the pressure of the first outlet pipe 311 and the second outlet pipe 312 cleaning liquid insides, regulate the operating efficiency of cleaning assembly 30, but also can control one or two work in the first actuator 320 and the second actuator 321 by this control circuit, to realize the independent cleaning to the first cleaning assembly 30 and the second cleaning assembly 30, successively clean or clean simultaneously.In other embodiments, described actuator 32 can be also that pressue device or other are controlled the device of fluid pressure in the first outlet pipe 311 and the second outlet pipe 312, to increase the pressure of the first outlet pipe 311 and the second outlet pipe 312 cleaning liquid insides, thereby make cleaning fluid spouting from the first delivery port 3110 and the second delivery port 3120, to realize the automatic cleaning to the first ducting assembly 21 and the second ducting assembly 22.

Please refer to Fig. 3, further, described the first cleaning assembly 30 also comprises that the two-port of described the first steam generator 350 is communicated with described the first actuator 320 and described the first outlet pipe 311 respectively for heating described cleaning fluid or making described cleaning fluid produce the first steam generator 350 of steam; Described the second cleaning assembly 30 also comprises that the two-port of described the second steam generator 351 is communicated with described the second actuator 321 and described the second outlet pipe 312 respectively for heating described cleaning fluid or making described cleaning fluid produce the second steam generator 351 of steam.Understandably, described the first steam generator 350 and the second steam generator 351 can be direct heated wash liquid heat block or in be provided with heater element to produce the device of steam, be fixedly installed on described housing 10, this first steam generator 350 is serially connected with on the pipeline with the first outlet pipe 311, and this second steam generator 351 is serially connected with on the pipeline with the second outlet pipe 312.The described cleaning fluid being extracted by the first actuator 320 is when flowing through the first steam generator 350, control heat block or heater element with heated wash liquid, to improve the temperature of cleaning fluid, or cleaning fluid heating is produced to steam, thereby make the cleaning fluid of the first delivery port 3110 places ejection for liquid, three kinds of forms of gaseous state or gas-liquid mixed, similarly, the described cleaning fluid being extracted by the second actuator 321 is when flowing through the second steam generator 351, control heat block 38 ' or heater element with heated wash liquid, to improve the temperature of cleaning fluid, or cleaning fluid heating is produced to steam, thereby make the cleaning fluid of the second delivery port 3120 places ejection for liquid, three kinds of forms of gaseous state or gas-liquid mixed.

Air conditioner room unit is after work a period of time, on ducting assembly 20, easily accumulation has dust, at the first gas channel 201 and the second gas channel 202 inwalls, be easily attached with a small amount of oily matter simultaneously, the cleaning assembly 30 of the present embodiment adopts cleaning fluid is heated, can be conducive to strengthen the pressure in outlet pipe 31, cleaning fluid is when by the first delivery port 3110 and the second delivery port 3120 ejection, HTHP, it can effectively dissolve oily matter, particularly steam generator 35 is heated to be pure steam by cleaning fluid, after by the first delivery port 3110 and the second delivery port 3120 places ejection, vaporization after oily matter dissolves, make the surface of the first ducting assembly 21 after cleaned and the second ducting assembly 22 can reach ultra-clean state, cleaning effect is very good.

The control mode of this first steam generator 350 and the second steam generator 351 is also automatically controlled, control circuit is set in air conditioner room unit, and three kinds of working methods that can show the first steam generator 350 and the second steam generator 351 on the control panel of air conditioner room unit, make respectively the cleaning fluid of the first delivery port 3110 and the second delivery port 3120 places ejection for liquid, gaseous state and gas-liquid mixed state, certainly when without steam generator 35 work, cleaning fluid is directly sprayed by the first delivery port 3110 and the second delivery port 3120 through the first steam generator 350 and the second steam generator 351 without heating, one sensor (not shown) also should be set in steam generator 35, while there is no cleaning fluid in detecting the first steam generator 350 and the second steam generator 351, it is automatically controlled the first steam generator 350 and the second steam generator 351 and quits work, guarantee the service life of the first steam generator 350 and the second steam generator 351.

Please refer to Fig. 2 and Fig. 3, further, described cleaning assembly 30 also comprises for accepting the drip tray 33 of the described cleaning fluid after cleaning, be sheathed on first rubber sleeve 360 and the second rubber sleeve 361 that is sheathed on described the second outlet pipe 312 outer walls of described the first outlet pipe 311 outer walls, described drip tray 33 is provided with the discharge outlet 330 for the cleaning fluid after cleaning is derived, the first through hole 334 passing for described the first outlet pipe 311 and the second through hole 335 passing for described the second outlet pipe 312, described the first rubber sleeve 360 is embedded between described the first outlet pipe 311 and the hole wall of described the first through hole 334, described the second rubber sleeve 361 is embedded between described the second outlet pipe 312 and the hole wall of described the second through hole 335.Understandably, described drip tray 33 is arranged in housing 10 and is positioned at ducting assembly 20 belows for accepting the cleaning fluid after cleaning, this drip tray 33 is fixedly installed on backboard 12, and be provided with fixedly projection 332, this side that fixedly projection 332 is positioned at drip tray 33 with utilize securing member (not shown) fixedly projection 332 be locked on backboard 12, thereby drip tray 33 is fixed on backboard 12.

In this embodiment, the first rubber sleeve 360 is closely connected between the outer wall of the first outlet pipe 311 and the hole wall of the first through hole 334, the second rubber sleeve 361 is closely connected between the outer wall of the second outlet pipe 312 and the hole wall of the second through hole 335, by sheathed the first rubber sleeve 360 on the outer wall of the first outlet pipe 311, can make the cleaning fluid flowing down along the first outlet pipe 311 be flowed directly in drip tray 33, similarly, by sheathed the second rubber sleeve 361 on the outer wall at the second outlet pipe 312, can make the cleaning fluid flowing down along the second outlet pipe 312 be flowed directly in drip tray 33, the cleaning fluid that can prevent from like this converging in drip tray 33 flows out between the tube wall of the first outlet pipe 311 and the hole wall of the first through hole 334 of drip tray 33, or flow out between the tube wall of the second outlet pipe 312 and the hole wall of drip tray 33 to second through holes 335, so that the cleaning fluid after having cleaned can be concentrated, converge and discharge along the discharge outlet 330 of drip tray 33.

Please refer to Fig. 1 to Fig. 5, further, described cleaning assembly 30 also comprises for depositing the water tank 36 of described cleaning fluid, between described the first actuator 320 and described the second actuator 321 and described water tank 36, by mozzle, is connected.Understandably, described water tank 36 is installed in described housing 10, or is installed on described housing 10 outsides; Described actuator 32 is arranged in described water tank 36, or is arranged at described water tank 36 outsides.The inwall of described water tank 36 is provided with the mount pad 341 of described the first actuator 320 of fixed installation and the second actuator 321, so that described the first actuator 320 and the second actuator 321 are fixedly installed on mount pad 341 to be arranged in described water tank 36; Or, the outer wall of described water tank 36 is provided with the holder 342 of described the first actuator 320 of fixed installation and the second actuator 321, and described the first actuator 320 and the second actuator 321 are fixedly installed on holder 342 so that described the first actuator 320 and the second actuator 321 are arranged at described water tank 36 outsides; Or described the first actuator 320 and the second actuator 321 separate independent setting with described water tank 36 and are communicated with so that the cleaning fluid that the first actuator 320 and the second actuator 321 extract in described water tank 36 by mozzle (not shown); Or described water tank 36 is for being arranged at the external container of described housing 10 outsides, this first actuator 320 and the second actuator 321 can be arranged in described housing 10 or be directly external while cleaning.Described the first actuator 320 and the second actuator 321 can be also other modes with the position of described water tank 36, as long as take and clean as object cleaning fluid is pumped in described housing 10.

In other embodiments, described the first steam generator 350 and the second steam generator 351 are fixedly installed on water tank 36 inwalls or outer wall, or are fixedly installed in the bottom of drip tray 33.In this embodiment, described water tank 36 be arranged at described discharge outlet 330 under, and be provided with opening (not shown) in the upper surface of described water tank 36, described opening and described discharge outlet 330 are over against setting, so that the cleaning fluid after cleaning flows directly in water tank 36 when deriving described drip tray 33 by described discharge outlet 330, preferably, described opening can be arranged on described water tank 36 sidewalls, also can be arranged at described water tank 36 upper covers, and utilize conduit communicated drainage mouth 330 and this opening so that cleaning fluid is imported in water tank 36.During cleaning assembly 30 work, actuator 32 extracts the cleaning fluid of depositing in water tank 36 and described cleaning fluid is heated in steam generator 35, finally by the first delivery port 3110 and the second delivery port 3120 ejections, thereby play the effect of cleaning ducting assembly 20, simultaneously, the cleaning fluid of these ejections converges in drip tray 33 after cleaning completes, and flow in water tank 36 through discharge outlet 330, in whole cleaning process, cleaning fluid is recycled, water tank 36 had been both the storing containers of the clean cleaning fluid before cleaning, again as the bearing container that cleans rear cleaning fluid, make the cleaning fluid after cleaning be unlikely to wantonly to flow in housing 10, affect the clean of housing 10 or surrounding environment.Preferably, being connected between water tank 36 and the first outlet pipe 311 and the second outlet pipe 312 or actuator 32 removably connects, after cleaning completes or in the time of need to changing cleaning fluid, can be by water tank 36 from the interior taking-up of described housing 10 to clean.

In other embodiments, the mode of accepting for cleaning fluid can also adopt other modes, for example, utilize the opening of discharge outlet 330 and described water tank 36 described in cross current, so that the cleaning fluid of discharging along described discharge outlet 330 converges in water tank 36 completely, this water tank 36 can make to deposit the container of clean cleaning fluid, can be also that another is specifically designed to the container of accepting the cleaning fluid after having cleaned.

Please refer to Fig. 5 to Fig. 7, further, described ducting assembly 20 also comprises for fixedly mounting the back cover member 29 of described outlet pipe 31, and described back cover member 29 comprises that two are oppositely arranged and respectively towards water conservancy diversion side plate 290 and a plurality of reinforcement 291 being arranged at intervals between described water conservancy diversion side plate 290 of described the first gas channel 201 and described the second gas channel 202.Understandably, described back cover member 29 is gradually-reducing shape by the direction at its front portion to rear portion, so that air-flow gently enters in the first gas channel 201 and the second gas channel 202, reduces the gas shock of air-flow to the inwall in air channel, reaches the object of noise reduction.Preferably, two described water conservancy diversion side plates 290 are "eight" shape setting.

Described back cover member 29 is fixedly installed on described ducting assembly 20, and particularly, described back cover member 29 buckles are installed on described ducting assembly 20 or utilize securing member that back cover member 29 is locked on ducting assembly 20.

Described the first outlet pipe 311 and described the second outlet pipe 312 are fixedly installed in respectively in described back cover member 29.

In one embodiment, the outer surface of described water conservancy diversion side plate 290 is provided with pipe clamp 293, described the first outlet pipe 311 and the second outlet pipe 312 wear and are fixed in described pipe clamp 293, so that described the first outlet pipe 311 and described the second outlet pipe 312 are fixedly installed in described back cover member 29 and between described back cover member 29 and backboard 12, utilize the free degree of pipe clamp 293 described the first outlet pipes 311 of restriction and the second outlet pipe 312, prevent that the first outlet pipe 311 and the second outlet pipe 312 from rocking, to strengthen its job stability.

In another embodiment, described reinforcement 291 is provided with the block button hole 2911 for fixing described the first outlet pipe 311 and the second outlet pipe 312, described back cover member 29 also comprises the fixed charge method end plate 292 that is positioned at described water conservancy diversion side plate 290 two ends, described fixed charge method end plate 292 near described actuator 32 1 sides is provided with the connecting hole 2920 that supplies described tube connector 313 or the first outlet pipe 311 and the second outlet pipe 312 to pass, described the first outlet pipe 311 and the second outlet pipe 312 wear and are fixed in described connecting hole 2920 and described block button hole 2911, described water conservancy diversion side plate 290 is provided with the via 2900 that a plurality of and described the first delivery port 3110 is relative with the second delivery port 3120, can utilize shower nozzle 37 to be connected between described the first delivery port 3110 and the second delivery port 3120 and described via 2900 and be exposed to described via 2900, so that the cleaning fluid in described the first outlet pipe 311 and the second outlet pipe 312 is sprayed along described shower nozzle 37, the spout 370 of this shower nozzle 37 is towards the first ducting assembly 21 and the second ducting assembly 22, to realize the cleaning to the first ducting assembly 21 and the second ducting assembly 22.

Please refer to Fig. 2, Fig. 6 to Fig. 8, further, described the first ducting assembly 21 comprises the first water conservancy diversion sidewall 210 and the first snail tongue 213 that is positioned at described the first gas channel 201 relative both sides, described the second ducting assembly 22 comprises the second water conservancy diversion sidewall 220 and the second snail tongue 223 that is positioned at described the second gas channel 202 relative both sides, and a side of described the first water conservancy diversion sidewall 210 and described the second water conservancy diversion sidewall 220 interconnects.Understandably, the inwall of described the first gas channel 201 consists of the first water conservancy diversion sidewall 210 and the first snail tongue 213, and the inwall of the second gas channel 202 consists of the second water conservancy diversion sidewall 220 and the second snail tongue 223.The first delivery port 3110 of described the first cleaning assembly 30 towards the first water conservancy diversion sidewall 210 and the first snail tongue 213 and cleaning fluid is injected into the first water conservancy diversion sidewall 210 and the first snail tongue 213 on, to realize the cleaning to the first gas channel 201 inwalls; Similarly, the second delivery port 3120 of described the second cleaning assembly 30 towards the second air-flow sidewall 220 and the second snail tongue 223 and cleaning fluid is injected into the second air-flow sidewall 220 and the second snail tongue 223 on, to realize the cleaning to the second gas channel 202 inwalls.

Please refer to Fig. 2, Fig. 6 to Fig. 8, in this embodiment, described ducting assembly 20 comprises the spiral case part 23 between the first snail tongue 213 and the second snail tongue 223, described spiral case part 23 comprises described the first water conservancy diversion sidewall 210 and the second water conservancy diversion sidewall 220, particularly, the first deflector 211 that described the first water conservancy diversion sidewall 210 comprises the exit that is positioned at the first gas channel 201 be positioned at the porch of described the first gas channel 201 the first arc plate 212 being connected with one end of described the first deflector 211, described the second water conservancy diversion sidewall 220 comprises the second arc plate 222 that is positioned at the exit of described the second gas channel 202 the second deflector 221 being connected with the other end of described the first deflector 211 and the porch that is positioned at described the second gas channel 202 and is connected with described the second deflector 221, the direction that arches upward of described the first deflector 211 and described the second deflector 221 is respectively towards the first snail tongue 213 and the second snail tongue 223, the direction that arches upward of described the first arc plate 212 and described the second arc plate 222 is distinguished toward each other, and the distance between described the first arc plate 212 and the second arc plate 222 is first reduced to increase by the direction at its front portion to its rear portion again.

Described the first snail tongue 213 and described the second snail tongue 223 with respect to described spiral case part 23 to this setting, and described the first snail tongue 213 comprises the first tongue 214 of the porch that is adjacent to described the first gas channel 201 and the first main part 215 being connected with above-mentioned the first tongue 214, described the second snail tongue 223 comprises the second tongue 224 of the porch that is adjacent to described the second gas channel 202 and the second main part 225 being connected with above-mentioned the second tongue 224, described the first main part 215 and described the second main part 225 are for guiding the flow direction of the first gas channel 201 and the second gas channel 202 interior air-flows, described the first main part 215 and described the second main part 225 extend to the exit expansion of described the first gas channel 201 and described the second gas channel 202 respectively with respect to described spiral case part 23.

Please refer to Fig. 2, Fig. 6 to Fig. 8, the sidewall of described the first water conservancy diversion sidewall 210 and described the first snail tongue 213 is the inwall of the first gas channel 201, and the sidewall of described the second water conservancy diversion sidewall 220 and described the second snail tongue 223 is the inwall of described the second gas channel 202.When utilizing cleaning assembly 30 to clean the first gas channel 201 and the second gas channel 202, cleaning fluid is injected in the first gas channel 201 and the second gas channel 202 by the first delivery port 3110 and the second delivery port 3120, so that the inwall of the first gas channel 201 and the second gas channel 202 is cleaned, realization is completely clean to the first gas channel 201 and the second gas channel 202.

Please refer to Fig. 2, Fig. 6 to Fig. 8, further, the first driver part 240 that described the first ducting assembly 21 also comprises the first wind wheel part 24 of the porch that is positioned at described the first gas channel 201 and drives described the first wind wheel part 24 to rotate, the second driver part 250 that described the second ducting assembly 22 also comprises the second wind wheel part 25 of the porch that is positioned at described the second gas channel 202 and drives described the second ducting assembly 22 to rotate, described the first wind wheel part 24, described the second wind wheel part 25, described the first water conservancy diversion sidewall 210, described the second water conservancy diversion sidewall 220, the length direction of described the first snail tongue 213 and described the second snail tongue 223 is parallel to each other.Understandably, described the first wind wheel part 24 and the second wind wheel part 25 can be tubular wine wheel, centrifugal wind wheel or other wind wheel structures.Described the first driver part 240 and described the second driver part 250 are motor.Described the first delivery port 3110 towards described the first wind wheel part 24 and the second delivery port 3120 towards the second wind wheel part 25, in cleaning process, the first actuator 320 and the second actuator 321 extract cleaning fluid and make cleaning fluid flow to the first delivery port 3110 and the second delivery port 3120 places along the first outlet pipe 311 and the second outlet pipe 312, because the first delivery port 3110 and the second delivery port 3120 are respectively towards the first wind wheel part 24 and the second wind wheel part 25, from the cleaning fluid of the first delivery port 3110 and the second delivery port 3120 ejections, be directly sprayed onto the first wind wheel part 24 and the second wind wheel part 25, thereby realized the cleaning to the first wind wheel part 24 and the second wind wheel part 25.In addition, when the first driver part 240 and the second driver part 250 drive respectively the first wind wheel part 24 and the second wind wheel part 25 to rotate, the cleaning fluid ejecting from the first delivery port 3110 and the second delivery port 3120 enters respectively the first gas channel 201 and the second gas channel 202 along with the first wind wheel part 24 and the second wind wheel part 25 rotate the air-flow producing, to play the effect of humidification air-flow, make in cleaning process, the air of being derived by this air conditioner room unit has certain humidity, improve the comfort level of surrounding environment, guaranteed the air-out quality of air conditioner room unit.

Please refer to Fig. 2, Fig. 6 to Fig. 8, further, the 3rd driver part 260 that described the first ducting assembly 21 also comprises first conducting element 26 in the exit that is arranged at described the first gas channel 201 and drives described the first conducting element 26 to rotate; Described the second ducting assembly 22 also comprises the 4 wheel driven dynamic component 270 that is arranged at second conducting element 27 in described the second gas channel 202 exits and drives described the second conducting element 27 to rotate.Understandably, described the first conducting element 26 is between the first main part 215 of described the first snail tongue 213 and the first deflector 211 of described the first water conservancy diversion sidewall 210, and described the second conducting element 27 is between the second main part 225 of described the second snail tongue 223 and the second deflector 221 of above-mentioned the second water conservancy diversion sidewall 220.Described the first conducting element 26, described the second conducting element 27, described spiral case part 23, described the first snail tongue 213 and described the second snail tongue 223 are parallel to each other at length direction.This first conducting element 26 swings back and forth in described the first gas channel 201, described the second conducting element 27 swings back and forth in described the second gas channel 202, so that mobile air-flow is subject to respectively the disturbance of the first conducting element 26 and the second conducting element 27 in this first gas channel 201 and described the second gas channel 202, make air-flow in disturbance after-blow to human body, strengthen the comfort that air-flow is blown into.In addition, the air-flow in 27 pairs of the first gas channels 201 of the first conducting element 26 and the second conducting element and the second gas channel 202 plays the effect of a shunting and water conservancy diversion, can realize the effect of flow division by the swing of the first conducting element 26 and the second conducting element 27.

Described the first conducting element 26 comprises by the first baffle 261 of described the 3rd driver part 260 its rotations of driving, the 5th driver part 263 that is rotationally connected with the second baffle 262 of described the first baffle 261 and drives described the second baffle 262 rotations; Described the second conducting element 27 comprises by the 3rd baffle 271 of described 4 wheel driven dynamic component 270 its rotations of driving, the 6th driver part 273 that is rotationally connected with the 4th baffle 272 of described the 3rd baffle 271 and drives described the 4th baffle 272 rotations.Understandably, described the first baffle 261 is provided with the first driving rod 264 being rotationally connected with the 3rd driver part 260, and on its cross section, there is the first point 265 and the first thick end 266 relative with the first point 265, the side of described the first baffle 261 in the first thick end 266 is provided with the first pivoted hole 267, the opposite end portion of described the second baffle 262 is provided with the second driving rod 268 being rotationally connected with the 5th driver part 263, described the second driving rod 268 is articulated in the first pivoted hole 267 so that described the second baffle 262 rotates with respect to described the first baffle 261.Similarly, described the 3rd baffle 271 is provided with the 3rd driving rod 274 being rotationally connected with 4 wheel driven dynamic component 270, and on its cross section, there is the second point 275 and the second thick end 276 relative with the second point 275, the side of described the 3rd baffle 271 in the second thick end 276 is provided with the second pivoted hole 277, the opposite end portion of described the 4th baffle 272 is provided with the 4th driving rod 278 being rotationally connected with the 6th driver part 273, described the 4th driving rod 278 is articulated in the second pivoted hole 277 so that described the 4th baffle 272 rotates with respect to described the 3rd baffle 271.

In cleaning process, described the first baffle 261 drives the second baffle 262 to rotate together and the second baffle 262 rotates with respect to the first baffle 261 so that described the second baffle 262 rotates towards the side away from the first baffle 261, so that the exit of described the first gas channel 201 of described the first conducting element 26 sealing, like this, cleaning fluid can be injected into by the first delivery port 3110 each inwall of the first gas channel 201, to realize the automatic cleaning to the first ducting assembly 21.This inwall comprises the first water conservancy diversion sidewall 210, the first snail tongue 213, the first baffle 261 and the second baffle 262, even can comprise the first wind wheel part 24; Similarly, described the 3rd baffle 271 drives the 4th baffle 272 to rotate together and the 4th baffle 272 rotates with respect to the 3rd baffle 271 so that described the 4th baffle 272 rotates towards the side away from the 3rd baffle 271, so that the exit of described the second gas channel 202 of described the second conducting element 27 sealing, like this, cleaning fluid can be injected into by the second delivery port 3120 each inwall of the second gas channel 202, to realize the automatic cleaning to the second ducting assembly 22.This inwall comprises the second water conservancy diversion sidewall 220, the second snail tongue 223, the 3rd baffle 271 and the 4th baffle 272, even can comprise the second wind wheel part 25.Above-mentioned cleaning process can be carried out simultaneously, also can successively carry out or carry out separately.

In this embodiment, the first ducting assembly 21 of this air conditioner room unit is the combination of the first water conservancy diversion sidewall 210, the first snail tongue 213, the first wind wheel part 24 and the first conducting element 26, and the second ducting assembly 22 is the combination of the second water conservancy diversion sidewall 220, the second snail tongue 223, the second wind wheel part 25 and the second conducting element 27.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims (10)

1. an air conditioner room unit, comprise housing and be installed on heat exchanger and the ducting assembly in described housing, it is characterized in that: described ducting assembly comprises that first ducting assembly with the first gas channel and second ducting assembly with the second gas channel, described air conditioner room unit also comprise and utilizes the first cleaning assembly that cleaning fluid cleans described the first ducting assembly and the second cleaning assembly that utilizes described cleaning fluid to clean described the second ducting assembly.

2. air conditioner room unit as claimed in claim 1, it is characterized in that: described the first cleaning assembly comprises the first outlet pipe of stretching in described housing and is communicated with and provides to described the first outlet pipe the first actuator of described cleaning fluid, described the first outlet pipe to comprise with described the first outlet pipe described cleaning fluid is injected into the first delivery port on described the first ducting assembly; Described the second cleaning assembly comprises the second outlet pipe of stretching in described housing and is communicated with and provides to described the second outlet pipe the second actuator of described cleaning fluid, described the second outlet pipe to comprise with described the second outlet pipe described cleaning fluid is injected into the second delivery port on described the second ducting assembly.

3. air conditioner room unit as claimed in claim 2, it is characterized in that: described the first cleaning assembly also comprises that the two-port of described the first steam generator is communicated with described the first actuator and described the first outlet pipe respectively for heating described cleaning fluid or making described cleaning fluid produce the first steam generator of steam; Described the second cleaning assembly also comprises that the two-port of described the second steam generator is communicated with described the second actuator and described the second outlet pipe respectively for heating described cleaning fluid or making described cleaning fluid produce the second steam generator of steam.

4. air conditioner room unit as claimed in claim 2, it is characterized in that: described cleaning part also comprises for accepting the drip tray of the described cleaning fluid after cleaning, be sheathed on first rubber sleeve and the second rubber sleeve that is sheathed on described the second outlet pipe outer wall of described the first outlet pipe outer wall, described drip tray is provided with the discharge outlet for the cleaning fluid after cleaning is derived, the first through hole passing for described the first outlet pipe and the second through hole passing for described the second outlet pipe, described the first rubber sleeve is embedded between described the first outlet pipe and the hole wall of described the first through hole, described the second rubber sleeve is embedded between described the second outlet pipe and the hole wall of described the second through hole.

5. air conditioner room unit as claimed in claim 2, is characterized in that: described cleaning part also comprises for depositing the water tank of described cleaning fluid, between described the first actuator and described the second actuator and described water tank, by mozzle, is connected.

6. the air conditioner room unit as described in claim 1 to 5 any one, it is characterized in that: described ducting assembly also comprises for fixedly mounting the back cover member of described outlet pipe, described back cover member comprises that two are oppositely arranged and respectively towards the water conservancy diversion side plate of described the first gas channel and described the second gas channel.

7. air conditioner room unit as claimed in claim 6, it is characterized in that: described the first ducting assembly is positioned at the first water conservancy diversion sidewall and the first snail tongue of described the first relative both sides of gas channel, described the second ducting assembly comprises the second water conservancy diversion sidewall and the second snail tongue that is positioned at described the second relative both sides of gas channel, and a side of described the first water conservancy diversion sidewall and described the second water conservancy diversion sidewall interconnects.

8. air conditioner room unit as claimed in claim 7, it is characterized in that: the first driver part that described the first ducting assembly also comprises the first wind wheel part of the porch that is positioned at described the first gas channel and drives described the first wind wheel part to rotate, the second driver part that described the second ducting assembly also comprises the second wind wheel part of the porch that is positioned at described the second gas channel and drives described the second wind wheel assembly to rotate, described the first wind wheel part, described the second wind wheel part, described the first water conservancy diversion sidewall, described the second water conservancy diversion sidewall, the length direction of described the first snail tongue and described the second snail tongue is parallel to each other.

9. air conditioner room unit as claimed in claim 7, is characterized in that: the 3rd driver part that described the first ducting assembly also comprises first conducting element in the exit that is arranged at described the first gas channel and drives described the first conducting element to rotate; Described the second ducting assembly also comprises the 4 wheel driven dynamic component that is arranged at second conducting element in described the second gas channel exit and drives described the second conducting element to rotate.

10. air conditioner room unit as claimed in claim 9, is characterized in that: described the first conducting element comprises by described the 3rd driver part and drives the first baffle of its rotation, the 5th driver part that is rotationally connected with the second baffle of described the first baffle and drives described the second baffle to rotate; Described the second conducting element includes the 3rd baffle that described 4 wheel driven dynamic component drives its rotation, the 6th driver part that is rotationally connected with the 4th baffle of described the 3rd baffle and drives described the 4th baffle to rotate.