CN204006312U - Air conditioner room unit - Google Patents

Abstract

The utility model relates to air-conditioner, a kind of air conditioner room unit is provided, comprise indoor unit casing, be positioned at ducting assembly and the heat exchanger assembly of air conditioner housing, air conditioner housing offers air inlet and air outlet, air inlet, heat exchanger assembly, ducting assembly and air outlet form gas channel jointly, in indoor unit casing, be also provided with the container refrigeration units being positioned under heat exchanger assembly and ducting assembly, container refrigeration units comprises casing for refrigerating and for the base of supporting box, casing top braces heat exchanger assembly.The utility model indoor set has air-conditioner and two kinds of functions of refrigerator concurrently, adopt casing top braces heat exchanger assembly simultaneously, during assembling, container refrigeration units, heat exchanger assembly and ducting assembly three independently assemble, non-interference, can effectively strengthen the packaging efficiency of indoor set, while case supports heat exchanger assembly, base supporting box, casing is that transition is supported, and integrated support structure is more stable.

Description

Air conditioner room unit

Technical field

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

Background technology

In current family life, air-conditioning and refrigerator become a kind of indispensable household electrical appliance gradually.But for existing family, the interior space is limited, and all can take indoor certain effective area for cabinet-type air conditioner and refrigerator, for effectively optimizing both taking up room, the theory that has occurred at present a kind of empty ice all-in-one, cabinet-type air conditioner and refrigerator are combined as a whole, make it have air-conditioner and two kinds of functions of refrigerator concurrently.In this empty ice all-in-one, the a set of refrigeration system work of the many employings of air-conditioner and refrigerator, but due in normal family life, refrigerator is substantially in long-term work, when air-conditioner is worked, two parts are worked very high to the requirement of compressor simultaneously, be difficult for realizing, and although the refrigeration system of employing refrigerator can meet refrigeration requirement, but can not there is excessive inclination in this refrigeration system in the process of carrying, transport more difficult, and no matter be in this empty ice all-in-one theory or in common air-conditioner, the parts such as the heat exchanger assembly in air conditioner room unit and ducting assembly are all installed on indoor set shell, during installation, bother very much, the all parts of heat exchanger assembly and ducting assembly need to be installed on indoor set shell correspondingly, during installation, bother very much, operating efficiency is lower.

Utility model content

The purpose of this utility model is to provide a kind of air conditioner room unit, be intended to for solve existing air-conditioner when mounted heat exchanger assembly be installed on indoor set shell, inconvenient problem is installed.

For solving the problems of the technologies described above, the technical solution of the utility model is: a kind of air conditioner room unit is provided, comprise indoor unit casing, be positioned at ducting assembly and the heat exchanger assembly of described air conditioner housing, described air conditioner housing offers air inlet and air outlet, described air inlet, described heat exchanger assembly, described ducting assembly and described air outlet form gas channel jointly, in described indoor unit casing, be also provided with the container refrigeration units being positioned under described heat exchanger assembly and described ducting assembly, described container refrigeration units comprises casing for refrigerating and for supporting the base of described casing, heat exchanger assembly described in described casing top braces.

Particularly, described heat exchanger assembly is fixedly connected with described ducting assembly.

Particularly, described casing top is connected by mounting structure with described heat exchanger assembly, and heat exchanger assembly is in described mounting structure place described in described casing top braces.

Further, described mounting structure comprises to be located at described heat exchanger assembly bottom and to some first lug bosses of downward-extension and the top of being located at described casing, to be provided with and some the first depressed parts one to one of the first lug boss described in each, and described in each, the first lug boss stretches into respectively clamping in described the first depressed part corresponding with it.

Particularly, described mounting structure comprises the connecting plate of being located between described heat exchanger frame bottom and described casing top, and described connecting plate is fixedly connected with the bottom of described heat exchanger support and the top of described casing respectively.

Further, described indoor unit casing also comprises two side plates that are oppositely arranged, described in each side plate respectively with described heat exchanger assembly and described box outer surface clamping.

Further, described casing top connects and supports described ducting assembly.

Particularly, described ducting assembly bottom is provided with some the second lug bosses to downward-extension, is provided with and some the second depressed parts one to one of the second lug boss described in each in the top of described casing, and described in each, the second lug boss described in each is established and supported to the second depressed part card.

Particularly, described heat exchanger assembly comprises heat exchanger support and is located at the heat exchanger in described heat exchanger support, and described heat exchanger support is connected with described ducting assembly.

Further, described heat exchanger assembly also comprises top board and the drip tray being fixedly connected with described heat exchanger support respectively, described heat exchanger is located between described top board and described drip tray, and the upper end of described heat exchanger and described top board snapping, the bottom of described heat exchanger is arranged in described drip tray.

The utlity model has following technique effect:

In air conditioner room unit of the present utility model, heat exchanger assembly and ducting assembly be positioned at container refrigeration units directly over, the casing by container refrigeration units supports heat exchanger assembly, container refrigeration units also comprises that one for the base of supporting box simultaneously.In this structure, heat exchanger assembly and ducting assembly integral body and container refrigeration units are two independent individualities, very convenient when indoor set is assembled, installation effectiveness is high, and adopts casing top braces heat exchanger assembly, base supporting box, casing is that transition is supported, and it,, as case shape structure, is not only conducive to support heat exchanger assembly, simultaneously more balanced to the active force of base, indoor set inner supporting structure is more stable.

Accompanying drawing explanation

Fig. 1 is the structural representation of the air conditioner room unit of the utility model embodiment;

Fig. 2 is the case supports ducting assembly of air conditioner room unit of Fig. 1 and the structural representation of heat exchanger assembly;

Fig. 3 is the explosive view between casing, ducting assembly and the heat exchanger assembly three of the air conditioner room unit of Fig. 1;

Fig. 4 is B place enlarged drawing in Fig. 3;

Fig. 5 is C place enlarged drawing in Fig. 3;

Fig. 6 is the structural representation of heat exchanger assembly of the air conditioner room unit of Fig. 1;

Fig. 7 is the structural representation of heat exchanger support of the air conditioner room unit of Fig. 1;

Fig. 8 is the structural representation of heat exchanger of the air conditioner room unit of Fig. 1;

Fig. 9 is the top board of air conditioner room unit and the structural representation of drip tray of Fig. 1;

Figure 10 is the structural representation of ducting assembly of the air conditioner room unit of Fig. 1.

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.

Referring to Fig. 1-Fig. 3, the utility model embodiment provides a kind of air conditioner room unit, the container refrigeration units 2 that comprises indoor unit casing 1 and be positioned at indoor unit casing, in indoor unit casing 1, be also provided with heat exchanger assembly 11 and ducting assembly 12, on indoor unit casing 1, offer air inlet and air outlet, air inlet, heat exchanger assembly 11, ducting assembly 12 and air outlet form gas channel successively, heat exchanger assembly 11 is for regulating the temperature that is entered indoor unit casing 1 interior air by air inlet, 12 of ducting assemblies are for the air after heat exchanger assembly 11 temperature adjustments is discharged outside indoor unit casing 1 by air outlet, both are used in conjunction with can be as required for regulating ambient temperature, 2 of container refrigeration units comprise that one for the casing 21 of chilled food and for the base of supporting box 21, by casing 21 top braces heat exchanger assemblies 11.In the utility model, the heat exchanger assembly 11 that is positioned at top is used in conjunction with ducting assembly 12, itself and container refrigeration units 2 adopt two cover refrigeration systems to freeze, separate between the two, particularly, being positioned at the heat exchanger assembly 11 of top and the refrigeration system of ducting assembly 12 adopts heat exchanger 112 to coordinate a set of refrigeration system of formation with condenser and the compressor of off-premises station, refrigeration system for container refrigeration units 2 adopts semiconductor chilling plate to realize, and the cold junction of semiconductor chilling plate is positioned at container refrigeration units 2 inner sides, hot junction is positioned at the outside of container refrigeration units 2, because two cover refrigeration systems work independently, non-interference its can effectively reduce the job requirement to each cover refrigeration system, and when carrying more conveniently can not produce the phenomenon that refrigerating fluid refluxes.In the present embodiment, between the overall structure of heat exchanger assembly 11 and ducting assembly 12 and container refrigeration units 2, be two independent individualities to a certain extent, to this in assembling during indoor set, assemble separately each parts of heat exchanger assembly 11 and ducting assembly 12, then ducting assembly 12 is connected with heat exchanger assembly 11, after both assemblings complete, again its integral body is placed in container refrigeration units 2 directly over, by the top braces heat exchanger assembly 11 of refrigerating box 2 casings 21, and adopt casing 21 top braces heat exchanger assemblies 11 to be conducive to the stressed of casing 21 with ducting assembly 12, casing 21 is positioned on base 22, by base 22 supporting box 21, thereby the strong point that base 22 is whole indoor set in this structure, casing 21 plays the effect that transition is supported, casing 21 is case shape structure again, between itself and base 22, there is larger contact area, base 22 is stressed more even, the stability of indoor set is high, for base 22, it should adopt the materials for support that intensity is higher, so that each parts of its top indoor set are produced to larger support force.

Further, heat exchanger assembly 11 is fixedly connected with ducting assembly 12, during casing 21 top braces heat exchanger assembly 11, can support the overall structure of heat exchanger assembly 11 and ducting assembly 12.

The supporting way of the above-mentioned casing 21 top heat exchanger assemblies 11 of refinement, is connected and fixed by mounting structure A between heat exchanger assembly 11 bottoms and the top of casing 21, can realize the stable support of casing 21 heat exchanger assemblies 11 by this mounting structure A.For heat exchanger assembly 11, comprise heat exchanger support 111 and be located at the heat exchanger 112 on heat exchanger support 111, heat exchanger assembly 11 is connected and fixed by mounting structure A with casing 21, can be seen as heat exchanger support 111 bottoms and casing 21 tops are connected and fixed by mounting structure A, in the present embodiment, ducting assembly 12 is connected and fixed with heat exchanger assembly 11, being in particular ducting assembly 12 is connected with heat exchanger support 111, to these casing 21 top braces heat exchanger supports 111, can realize the support of heat exchanger assembly 11 and ducting assembly 12, heat exchanger assembly 11 and ducting assembly 12 monolithic stabilities are supported in casing 21 tops.Usually, for avoiding occurring that heat exchanger support 111 causes the situation of casing 21 top unbalance stress, when casing 21 top braces heat exchanger support 111 bottom, the contact area between casing 21 tops and heat exchanger support 111 bottoms be should strengthen as far as possible, heat exchanger assembly 11 and the pressure of ducting assembly 12 integral body to casing 21 tops reduced.

Referring to Fig. 1, Fig. 3-Fig. 5, for mounting structure A, can adopt various structures form, such as mounting structure A can be used as the part at heat exchanger assembly 11 bottoms or casing 21 tops, be to be directly connected and fixed between heat exchanger support 111 bottoms and casing 21 tops, mounting structure A comprises some the first lug bosses 1111 that are positioned at heat exchanger assembly 11 bottoms and some the first depressed parts 211 that are positioned at casing 21 tops particularly, each the one the first lug boss 1111 is all to downward-extension, and each first lug boss 1111 is corresponding one by one with the first depressed part 211, be specially the bottom that each first lug boss 1111 is all positioned at heat exchanger support 111, when heat exchanger assembly 11 is assembled in container refrigeration units 2, each first lug boss 1111 stretches in the first depressed part 211 corresponding with it and clamping between the two respectively, thereby realize being connected and fixed between heat exchanger assembly 11 and container refrigeration units 2, usually heat exchanger support 111 bottoms are square, the number that arranges of the first lug boss 1111 and the first depressed part 211 is four, four the first lug bosses 1111 are distributed near four turnings of heat exchanger support 111 bottoms, area between four Support Positions is larger, can be so that heat exchanger support 111 has stronger stability after installing.Optimize the enforcement structure of above-mentioned mounting structure A, mounting structure A also comprises some connectors, on the outer surface of each the first lug boss 1111, all offer the first connecting hole 1112, at casing 21 tops, be positioned at accordingly each first depressed part 211 place and also all offer the second connecting hole 2111, this second connecting hole 2111 runs through inside and outside the first depressed part 211, and be connected in the first depressed part 211 when interior at the first lug boss 1111, the first connecting hole 1112 is corresponding one by one with the second connecting hole 2111, every a connection piece wears fixing wherein one second connecting hole 2111 and the first corresponding connecting hole 1112 successively.Usually, the first connecting hole 1112 and the second connecting hole 2111 are screwed hole, connector is attachment screw or connecting bolt etc., by connector, the first lug boss 1111 of heat exchanger support 111 is connected and fixed with the first depressed part 211 of casing 21, can further strengthen the stability being connected between heat exchanger support 111 bottoms and casing 21 tops, both can not occur departing from easily.

In the another kind of version of mounting structure A, mounting structure A can be used as a kind of transition piece, and it is not a part for heat exchanger assembly 11 or casing 21.Mounting structure A is a plate particularly, this connecting plate is between heat exchanger assembly 11 bottoms and casing 21 tops, connecting plate is fixedly connected with heat exchanger assembly 11 bottoms and casing 21 tops respectively, for being fixedly connected with, can directly take the lockings such as some bolts, by connecting plate, indirectly form being connected and fixed between heat exchanger assembly 11 and container refrigeration units 2, the lower surface of the casing 21 direct support and connection plates in top, by the transfer function of power, the upper surface of connecting plate supports the bottom of heat exchanger assembly 11.

Referring to Fig. 1 and Fig. 3, continue to optimize above-mentioned embodiment, indoor unit casing 1 also comprises two side plates 13, biside plate 13 is oppositely arranged, and 13 whiles and heat exchanger support 111 and casing 21 clampings of every side plate.Heat exchanger support 111 and casing 21 all have two opposite flanks of vertical setting, when heat exchanger support 111 is vertically arranged to the top of casing 21, two opposite flanks of heat exchanger support 111 are corresponding one by one with two opposite flanks of casing 21, and each group is approximate in the same plane, on heat exchanger support 111 and casing 21, be equipped with some draw-in grooves, each draw-in groove interval arranges, on every side plate 13, be also arranged at intervals with some card bases accordingly, by side plate 13 wherein along heat exchanger support 111 and casing 21 wherein place a side time, card base on this side plate 13 is corresponding one by one with the draw-in groove of heat exchanger support 111 and casing 21, by each card base one by one correspondence be arranged in each draw-in groove, thereby this side plate 13 is fixed on heat exchanger support 111 and casing 21, this heat exchanger support 111 is formed to connection status with casing 21 by two side plates 13 on two relative side, by two side plates, 13 sandwiched heat exchanger support 111 and casings 21, thereby can further strengthen the stability being connected between heat exchanger support 111 and casing 21, stable casing 21 tops that are arranged at of heat exchanger support 111, while biside plate 13 goes back heat exchanger support 111 and casing 21 has certain protective effect.

Referring to 3, Fig. 6-Fig. 9, further, for heat exchanger assembly 11, also comprise top board 114 and drip tray 113, top board 114 all forms a fixed connection with heat exchanger support 111 with drip tray 113, heat exchanger 112 is located between pressing plate 114 and drip tray 113, and the upper end of heat exchanger 112 and top board 114 snappings, the bottom of heat exchanger 112 is arranged in drip tray 113.Structure for heat exchanger support 111, it is the frame shape structure vertically arranging, by the substrate 1113 of a vertical setting and two side plates 1114 that are oppositely arranged, enclose groove 1115 structures that form a vertical placement, the opening 11151 of groove 1115 is over against substrate 1113, and groove 1115 also has the upper port 11152 and lower port 11153 being oppositely arranged.In the utility model, heat exchanger 112 adopts parallel-flow heat exchanger 112, be platy structure, it is positioned at groove 1115 and mainly by upper end and bottom, forms fixing, top board 114 is arranged in upper port 11152 places of heat exchanger support 111,113 of drip trays are arranged in lower port 11153 places accordingly, the upper end of top board 114 stationary heat exchangers 112, the bottom of drip tray 113 stationary heat exchangers 112, thus make both sandwiched stationary heat exchangers 112.The bottom of heat exchanger 112 is directly arranged in drip tray 113 particularly, drip tray 113 has water leg 1131, heat exchanger 112 projection vertically falls within this water leg 1131, thereby can be so that its surface liquefaction water can flow in water leg 1131 along heat exchanger 112 surfaces during heat exchanger 112 work, the aqueduct of being drawn by water leg 1131 is again discharged outside indoor set, certain upper port 11152 for heat exchanger support 111 and lower port 11153 places all should be provided for respectively the dependency structure with top board 114 and drip tray 113 clampings, such as draw-in groove or locating dowel etc., also can adopt the lockings such as bolt between any two.

Further, offer two guide holes 1132 on drip tray 113, the input pipe 1121 of heat exchanger 112 and efferent duct 1122 wear respectively these two guide holes 1132 and lay downwards along the outer surface of casing 21.In the present embodiment, due to heat exchanger 112 be positioned at casing 21 directly over, for avoiding input pipe 1121 and the efferent duct 1122 of heat exchanger 112, by the upper part of indoor set, drawn, affect the attractive in appearance of indoor set integral body, to this, it can be laid downwards along casing 21 outer surfaces, input pipe 1121 and the efferent duct 1122 of heat exchanger 112 are drawn along the bottom of indoor set, and input pipe 1121 and efferent duct 1122 are laid downwards along casing 21 outer surfaces, both can also play against the outer surface of casing 21 effect that prevents heat exchanger assembly 11 rollovers, stability while further strengthening casing 21 top braces heat exchanger assemblies 11 and ducting assembly 12.Because heat exchanger 112 is positioned at the groove 1115 of heat exchanger support 111, input pipe 1121 and efferent duct 1122 can wear drip tray 113 along two guide holes 1132 respectively.For this structure, two guide holes 1132 should not be opened in water leg 1131, avoid the water in water leg 1131 to flow out along guide hole 1132, in the present embodiment, drip tray 113 has an extension, two guide holes 1132 are all opened in this extension, owing to directly the input pipe of heat exchanger 112 1121 and efferent duct 1122 vertically being worn to two guide holes 1132 when mounted, not very convenient, therefore this extension can be comprised of two splice plates 11331, wherein a splice plate 11331 is one-body molded with water leg 1131 parts of drip tray 113, between two splice plates 11331, can adopt screw to be connected and fixed, each guide hole 1132 is all divided into two and half holes by two splice plates 11331, two halves hole lays respectively on two splice plates 11331, when being connected and fixed, two splice plates 11331 can be enclosed to form two complete guide holes 1132, like this when the input pipe of heat exchanger 112 1121 and efferent duct 1122 are worn to two guide holes 1132, can first dismantle a wherein splice plate 11331, again input pipe 1121 and efferent duct 1122 along continuous straight runs are placed in two and half holes of another splice plate 11331, finally with screw etc., two splice plates 11331 are connected and fixed, thereby realize input pipe 1121 and efferent duct 1122 and wear two guide holes 1132, fast and easy.

Referring to Fig. 1, Fig. 6 and Figure 10, optimize further above-described embodiment, casing 21 tops also can be used for directly supporting ducting assembly 12, be that ducting assembly 12 and heat exchanger assembly 11 are supported in casing 21 tops simultaneously, ducting assembly 12 comprises having the outlet frame 121 in air channel 1211 and be located at the tubular wine wheel 122 in outlet frame 121, outlet frame 121 is vertical setting with tubular wine wheel 122, tubular wine wheel 122 is mainly used in the air intake indoor unit casing 1 of the outer side of indoor set and form air-flow, this air-flow when through heat exchanger assembly 11 and heat exchanger 112 carry out heat exchange to change its temperature, then the air-flow after temperature change continues to enter in air channel 1211 and by indoor set opposite side and discharge under the effect of tubular wine wheel 122, thereby play the effect that changes indoor set ambient temperature.In the present embodiment, ducting assembly 12 is fixedly connected with heat exchanger assembly 11, be specially between outlet frame 121 and heat exchanger 112 and be connected, ducting assembly 12 is fixed on opening 11151 places of heat exchanger support 111 grooves 1115, on the substrate 1113 of heat exchanger support 111, connecting hole is set, outlet frame 121 can stretch in groove 1115 along two side plates 1114, then adopt screw etc. to be locked with the connecting hole on substrate 1113, in this structure, heat exchanger support 111 is all subject to support force effect with outlet frame 121, known when casing 21 top braces heat exchanger assemblies 11 and the ducting assembly 12 by force analysis, the center of gravity of heat exchanger assembly 11 and ducting assembly 12 should be between ducting assembly 12 and heat exchanger assembly 11, and the center of gravity of single ducting assembly 12 and heat exchanger assembly 11 is all positioned at it oneself, to this, adopt two groups of support forces to support the overall structure of heat exchanger assembly 11 and ducting assembly 12, the active force equal vertical direction of the overall structure that can make heat exchanger assembly 11 and ducting assembly 12 to casing 21 tops, thereby can avoid the whole possibility that occurs rollover of indoor set, casing 21 is stressed more balanced simultaneously, there is stronger stability.

Further, in the bottom of outlet frame 121, be provided with some the second lug bosses 1212 to downward-extension, at casing 21 tops, be provided with and each the second lug boss 1212 some the second depressed parts 212 one to one simultaneously, each second depressed part 212 is for clamping second lug boss 1212 corresponding with it, and can realize the support to this second lug boss 1212.In this structure, between the bottom of outlet frame 121 and casing 21 tops, by some groups of the second lug bosses 1212 and the second 212 of depressions, carry out clamping, guaranteed the stable of connection between the two, between outlet frame 121 bottoms and casing 21 tops, also should there is larger contact area simultaneously, by each contact-making surface, realize the support of casing 21 tops to ducting assembly 12 and heat exchanger assembly 11, and contact area is between the two larger, the active force at 12 pairs of casing 21 tops of heat exchanger assembly 11 and ducting assembly is compared with homogenising, so that the casing 21 top pressure at contact-making surface place are less, thereby the stability while guaranteeing casing 21 as base.Certainly a connecting plate (not shown) being all connected with both can also also can be set between outlet frame 121 bottoms and casing 21 tops, by connecting plate, indirectly connect outlet frame 121 and casing 21, and can also effectively guarantee the mediate contact area between outlet frame 121 bottoms and casing 21 tops by the platy structure of this connecting plate, reduce pressure.For the second lug boss 1212 on outlet frame 121 bottoms, install position, should try one's best near heat exchanger assembly 11 1 sides, because be also provided with tubular wine wheel 122 and motor etc. on outlet frame 121, these parts are all partial to heat exchanger assembly 11 1 sides in the position of installing of outlet frame 121, and outlet frame 121 is mainly air channel 1211 away from heat exchanger assembly 11 1 sides, lighter weight, thereby the whole center of gravity that makes outlet frame 121 should be partial to heat exchanger assembly 11 1 sides, stationarity to this when guaranteeing that casing 21 supports ducting assembly 12, each second lug boss 1212 should be near heat exchanger assembly 12.

Referring to Fig. 1-Fig. 3, further, for the structure of casing 21, some reinforcements 213 can be set on the outer surface of casing 21, each reinforcement 213 all vertically arranges.Because casing 21 is mainly used in chilled food, this its inside mostly is to hollow structure, when it is for supporting the heat exchanger assembly 11 of top and during ducting assembly 12, the final force part of casing 21 is for enclosing the side panel 214 of this casing 21, in the present embodiment, the reinforcement 213 of vertical direction is all set in the outer surface of each side panel 214 of casing 21, and self intensity that it can effectively strengthen each side panel 214, guarantees service life of casing 21.

The foregoing is only the utility model preferred embodiment; its structure is not limited to the above-mentioned shape of enumerating; 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 indoor unit casing, be positioned at ducting assembly and the heat exchanger assembly of described air conditioner housing, described air conditioner housing offers air inlet and air outlet, described air inlet, described heat exchanger assembly, described ducting assembly and described air outlet form gas channel jointly, it is characterized in that: in described indoor unit casing, be also provided with the container refrigeration units being positioned under described heat exchanger assembly and described ducting assembly, described container refrigeration units comprises casing for refrigerating and for supporting the base of described casing, heat exchanger assembly described in described casing top braces.

2. air conditioner room unit as claimed in claim 1, is characterized in that: described heat exchanger assembly is fixedly connected with described ducting assembly.

3. air conditioner room unit as claimed in claim 1, is characterized in that: described casing top is connected by mounting structure with described heat exchanger assembly, and heat exchanger assembly is in described mounting structure place described in described casing top braces.

4. air conditioner room unit as claimed in claim 3, it is characterized in that: described mounting structure comprises to be located at described heat exchanger assembly bottom and to some first lug bosses of downward-extension and the top of being located at described casing, to be provided with and some the first depressed parts one to one of the first lug boss described in each, and described in each, the first lug boss stretches into respectively clamping in described the first depressed part corresponding with it.

5. air conditioner room unit as claimed in claim 3, it is characterized in that: described mounting structure comprises the connecting plate of being located between described heat exchanger frame bottom and described casing top, described connecting plate is fixedly connected with the bottom of described heat exchanger support and the top of described casing respectively.

6. air conditioner room unit as claimed in claim 1, is characterized in that: described indoor unit casing also comprises two side plates that are oppositely arranged, described in each side plate respectively with described heat exchanger assembly and described box outer surface clamping.

7. air conditioner room unit as claimed in claim 1, is characterized in that: described casing top connects and supports described ducting assembly.

8. air conditioner room unit as claimed in claim 7, it is characterized in that: described ducting assembly bottom is provided with some the second lug bosses to downward-extension, in the top of described casing, be provided with and some the second depressed parts one to one of the second lug boss described in each, described in each, the second lug boss described in each is established and supported to the second depressed part card.

9. air conditioner room unit as claimed in claim 1, is characterized in that: described heat exchanger assembly comprises heat exchanger support and be located at the heat exchanger in described heat exchanger support, and described heat exchanger support is connected with described ducting assembly.

10. air conditioner room unit as claimed in claim 9, it is characterized in that: described heat exchanger assembly also comprises top board and the drip tray being fixedly connected with described heat exchanger support respectively, described heat exchanger is located between described top board and described drip tray, and the upper end of described heat exchanger and described top board snapping, the bottom of described heat exchanger is arranged in described drip tray.