CN216557417U - Integrated cabinet air conditioner - Google Patents

Integrated cabinet air conditioner Download PDF

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Publication number
CN216557417U
CN216557417U CN202123154351.2U CN202123154351U CN216557417U CN 216557417 U CN216557417 U CN 216557417U CN 202123154351 U CN202123154351 U CN 202123154351U CN 216557417 U CN216557417 U CN 216557417U
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China
Prior art keywords
shell
casing
fan
air conditioner
air
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CN202123154351.2U
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Chinese (zh)
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汪魁
杨蓉
张谱辉
郑波
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Gree Electric Appliances Inc of Zhuhai
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Gree Electric Appliances Inc of Zhuhai
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Abstract

The utility model provides an integrated cabinet air conditioner, which comprises: first casing, compressor, condenser part, second casing, evaporator part and door plant subassembly, the condenser part with the compressor set up in the inside of first casing, first casing is formed with the opening towards indoor direction, the second casing can be followed the opening assembly gets into the inside of first casing, the evaporator part set up in the inside of second casing, the door plant subassembly can cover and locate first casing open position, with will the second casing holds completely in the inside of first casing. The utility model can cancel the partition plate in the cabinet air conditioner in the prior art, realize the assembly of the integrated evaporator cavity, realize the indoor side maintenance of all components, realize the modularized assembly of the components from inside to outside, and improve the anti-theft function because the cabinet can not be opened from the outdoor side and the internal components can not be stolen.

Description

Integrated cabinet air conditioner
Technical Field
The utility model belongs to the technical field of air conditioners, and particularly relates to an integrated cabinet air conditioner.
Background
The increasing shortage of traditional energy and the worsening of the environment greatly promote the development of new energy. The energy storage is particularly important, wherein the main form of electrochemical energy storage is container energy storage, and a lithium battery group, a battery rack, an air pipe, a control system and the like are arranged in the container. When the battery charges and discharges, the battery can generate heat, and the inner space of the energy storage container needs to be cooled. Meanwhile, the cooling market of small-sized data rooms and data centers is getting bigger and bigger.
The conventional fan cooling system is poor in cooling effect, dust, moisture and other gas impurities in the outside air are easily brought into the cabinet, the container energy storage and the small data machine room need a special air conditioner to control the temperature in a sealed battery compartment or a machine room space, the temperature has important influence on the use safety and the service life of the battery, and similarly, a data center in the machine room also needs good temperature control. The integrated cabinet air conditioner is an integral machine, and can be generally directly installed on a box body or a door body of a container or an energy storage cabinet, and is installed in an embedded mode or a wall-mounted mode. The indoor unit and the outdoor unit are integrated, so that the indoor unit and the outdoor unit have the advantages of convenience in installation and small occupied space.
The prior integrated cabinet air conditioner has compact structural design and inconvenient after-sale maintenance and production assembly due to the consideration of appearance and anti-theft property. The integrated cabinet air conditioner integrates the indoor unit and the outdoor unit, so that the indoor unit and the outdoor unit are often separated through the partition plate, certain sealing grade requirements are met, and the integrated cabinet air conditioner cannot be detached at will. And the outdoor unit related parts are installed and maintained from the outdoor side, so that a plurality of fasteners are often involved, the appearance is affected, meanwhile, a large shell needs to be additionally arranged to meet the anti-theft requirement, and the cost is greatly increased.
The cabinet air conditioner in the prior art has the technical problems of insufficient anti-theft performance, inconvenience in after-sale maintenance, production and installation and the like, so that the integrated cabinet air conditioner is researched and designed.
SUMMERY OF THE UTILITY MODEL
Therefore, the technical problem to be solved by the present invention is to overcome the defect of insufficient anti-theft performance of the cabinet air conditioner in the prior art, so as to provide an integrated cabinet air conditioner.
The utility model provides an integrated cabinet air conditioner, which comprises:
first casing, compressor, condenser part, second casing, evaporator part and door plant subassembly, the condenser part with the compressor set up in the inside of first casing, first casing is formed with the opening towards indoor direction, the second casing can be followed the opening assembly gets into the inside of first casing, the evaporator part set up in the inside of second casing, the door plant subassembly can cover and locate first casing open position, with will the second casing holds completely in the inside of first casing.
In some embodiments, the interior of the first housing and the exterior of the second housing and the door panel assembly together define a condensation chamber sealed from the interior of the second housing, and the interior of the second housing and the door panel assembly together define an evaporation chamber sealed from the condensation chamber.
In some embodiments, a second shell support beam is disposed on the inner wall of the first shell, the second shell moves from the opening toward the inner direction of the first shell and slides along the second shell support beam to be clamped, and finally the second shell is supported on the second shell support beam.
In some embodiments, the second casing support beam is shaped to match a profile of a side of the second casing facing away from the door panel assembly, the second casing support beam includes a first horizontal section at an upper end and a second horizontal section at a lower end, an upper portion of the side of the second casing facing away from the door panel assembly has a protrusion, the lower end of the protrusion is slidably engaged with the upper end of the first horizontal section, and a bottom of the second casing is slidably engaged with the upper end of the second horizontal section.
In some embodiments, the second shell support beam further comprises a structure extending continuously between the first horizontal segment and the second horizontal segment; and/or the presence of a gas in the gas,
the second shell supporting beam is also provided with a first screw hole, and the second shell is slidably clamped on the second shell supporting beam and then fixed with the second shell supporting beam through a screw via the first screw hole.
In some embodiments, still include outer fan subassembly, outer fan air-inlet grille and condenser air-outlet grille, outer fan air-inlet grille with condenser air-outlet grille all sets up on the first casing, the inside of first casing can pass through outer fan air-inlet grille follows the air-inlet of outdoor side, and passes through condenser air-outlet grille is to the air-out of outdoor side, outer fan subassembly set up in the inside of first casing, through outer fan subassembly drive air current passes through outer fan air-inlet grille gets into the inside of first casing, and the process rethread behind the condenser part heat transfer condenser air-outlet grille blows off.
In some embodiments, the outer fan assembly is opposite the outer fan air intake grille and the condenser component is opposite the condenser air outlet grille.
In some embodiments, a compressor positioning bolt is arranged on the inner wall of the bottom of the first shell, and the compressor is positioned and arranged at the bottom of the first shell by the compressor positioning bolt; and/or the presence of a gas in the gas,
an outer fan fixing support is arranged on the inner wall of the bottom of the first shell, and the outer fan assembly is fixedly arranged at the bottom of the first shell through the outer fan fixing support.
In some embodiments, when an outer fan fixing support is disposed on the inner wall of the bottom of the first casing, an outer fan assembly second fixing support is further disposed at the bottom of the second casing, the outer fan assembly second fixing support fixes the upper end of the outer fan assembly, and the outer fan fixing support fixes the lower end of the outer fan assembly.
In some embodiments, still include interior fan part, evaporimeter air-inlet grid and interior fan air-out grid, interior fan part set up in the inside of second casing, evaporimeter air-inlet grid with interior fan air-out grid all set up in on the door plant subassembly, the inside of second casing can pass through evaporimeter air-inlet grid is from indoor side air inlet, and passes through interior fan air-out grid is to indoor side air-out, through interior fan part drive air current passes through evaporimeter air-inlet grid gets into the inside of second casing, and process rethread behind the evaporimeter part heat transfer interior fan air-out grid blows out.
In some embodiments, the evaporator element is opposite the evaporator air inlet grille and the inner fan element is opposite the inner fan air outlet grille.
In some embodiments, an inner fan member support beam is disposed on an inner side wall of the second housing, and the inner fan member is slidably supported within the second housing by the inner fan member support beam.
In some embodiments, the inner fan member support beams are at least two, at least one of which is disposed on an inner sidewall of one horizontal side of the second casing and at least one of which is disposed on an inner sidewall of the other horizontal side of the second casing; and/or the presence of a gas in the gas,
the inner fan component supporting beam is further provided with a second screw hole, the inner fan component is provided with a second mounting hole, the inner fan component is slidably clamped in the second shell, and then the inner fan component is fixed with the inner fan component supporting beam through the second screw hole, the second mounting hole and the screw.
In some embodiments, the fan further comprises an inner fan support, an electric heating part and an electric heating support, wherein the electric heating part is assembled on the electric heating support, the electric heating part is connected with the inner fan support, the inner fan part is assembled on the inner fan support, and the inner fan support is slidably supported on the inner fan part supporting beam.
In some embodiments, the electrical box further comprises an electrical box component and an electrical box support beam, wherein the electrical box support beam is arranged on the inner side wall of the second shell, and the electrical box component is supported in the second shell in a sliding mode through the electrical box support beam.
In some embodiments, the number of the electrical box supporting beams is at least 4, at least 2 of the electrical box supporting beams are arranged on the inner side wall of one horizontal side of the second shell and are respectively matched and supported with the upper end and the lower end of one side of the electrical box component, and at least 2 of the electrical box supporting beams are arranged on the inner side wall of the other horizontal side of the second shell and are respectively matched and supported with the upper end and the lower end of one side of the electrical box component; and/or the presence of a gas in the gas,
the electrical box supporting beam is also provided with a third screw hole, the electrical box component is provided with a third mounting hole, and after the electrical box component is slidably clamped in the second shell, the electrical box component is fixed with the electrical box supporting beam through the third screw hole, the third mounting hole and a screw.
In some embodiments, a water receiving portion is arranged at the bottom of the second shell below the evaporator component, and a water outlet is communicated with the bottom of the water receiving portion and extends downwards to form a water discharging channel.
In some embodiments, a flange frame is disposed around the opening of the first housing, and a first mounting hole is disposed on the flange frame.
The integrated cabinet air conditioner provided by the utility model has the following beneficial effects:
1. the utility model arranges the first shell and the second shell, the compressor and the condenser part are arranged in the first shell, the evaporator part is arranged in the second shell, the second shell is assembled into the first shell from the opening, thus an evaporation cavity which is relatively sealed is formed between the second shell and the door plate component, and a condenser which is relatively sealed is formed between the first shell and the second shell and the door plate component, thereby effectively eliminating the clapboard in the air conditioner of the machine cabinet in the prior art, when assembling, the evaporator part is assembled in the second shell firstly and then assembled into the first shell from the indoor side, the assembly of the integrated evaporator cavity is realized, the clapboard is eliminated, the indoor side maintenance of all the parts is realized, the modularized assembly of the parts from the inside to the outside is realized, the machine cabinet can not be opened from the outdoor side, the internal parts can not be stolen, and the outdoor shell has no screw and rivet, the appearance is beautiful, and the anti-theft function is realized.
2. The second shell supporting beam is arranged on the inner wall of the first shell, so that drawer type installation and modular assembly of the second shell in the integrated cabinet air-conditioning part can be realized through the guide sliding supporting beam structure, and after-sale maintenance and production are facilitated; the inner fan component supporting beam is arranged on the inner wall of the second shell, so that drawer type installation and modular assembly of the second shell in the integrated cabinet air conditioner component can be realized through the guide sliding supporting beam structure, and after-sale maintenance and production are facilitated; still be provided with an electrical apparatus box supporting beam on the inner wall through the second casing, can realize the drawer type installation of the inside second casing of integration rack air conditioner part through direction slip supporting beam structure, the modularization assembly, convenient after-sales maintenance and production.
Drawings
Fig. 1 is an exploded view of the integrated cabinet air conditioner of the present invention;
FIG. 2 is an overall assembly view of the evaporation chamber of the integrated cabinet air conditioner of the present invention;
FIG. 3 is a schematic view of a component support beam of the integrated cabinet air conditioner of the present invention;
FIG. 4 is a schematic diagram of the air supply of the integrated cabinet air conditioner of the present invention;
FIG. 5a is an external view (looking from the indoor side) of the integrated cabinet air conditioner of the present invention;
FIG. 5b is an external view (looking from the outdoor side) of the integrated cabinet air conditioner of the present invention;
fig. 5c is a left side view of fig. 5 a.
The reference numbers in the figures denote:
100. a first housing; 10. an opening; 101. an air inlet grille of the outer fan; 102. an air outlet grid of the condenser; 110. a flange frame; 111. a first mounting hole; 130. a second shell support beam; 140. an outer fan guide ring fixing piece; 150. a compressor positioning bolt; 160. an outer fan fixing bracket; 200. a condenser component; 210. a condensation chamber; 500. an evaporator component; 510. an evaporation chamber; 600. an outer fan assembly; 700. a temperature and humidity sensor; 800. a door panel assembly; 801. door panel screw holes; 802. an evaporator air intake grille; 806. an air outlet grid of the inner fan; 900. an appliance housing component; 930. an inner fan component; 931. an inner fan; 932. an inner fan bracket; 940. a second housing; 941. an inner fan member support beam; 942. an electrical box support beam; 943. a water receiving part; 944. a water outlet; 945. a third screw hole; 946. a second screw hole.
Detailed Description
As shown in fig. 1 to 5c, the present invention provides an integrated cabinet air conditioner, which includes:
the condenser component 200 and the compressor are arranged in the first shell 100, an opening 10 is formed in the first shell 100 towards the indoor direction, the second shell 940 can be assembled into the first shell 100 from the opening 10, the evaporator component 500 is arranged in the second shell 940, and the door panel component 800 can be covered on the opening 10 of the first shell 100 so as to completely contain the second shell 940 in the first shell 100.
The utility model arranges the first shell and the second shell, the compressor and the condenser part are arranged in the first shell, the evaporator part is arranged in the second shell, the second shell is assembled into the first shell from the opening, thus an evaporation cavity which is relatively sealed is formed between the second shell and the door plate component, and a condenser which is relatively sealed is formed between the first shell and the second shell and the door plate component, thereby effectively eliminating the clapboard in the air conditioner of the machine cabinet in the prior art, when assembling, the evaporator part is assembled in the second shell firstly and then assembled into the first shell from the indoor side, the assembly of the integrated evaporator cavity is realized, the clapboard is eliminated, the indoor side maintenance of all the parts is realized, the modularized assembly of the parts from the inside to the outside is realized, the machine cabinet can not be opened from the outdoor side, the internal parts can not be stolen, and the outdoor shell has no screw and rivet, the appearance is beautiful, and the anti-theft function is realized.
1. The modularized installation of the internal parts of the evaporator cavity is realized through the guide sliding supporting beam structure.
2. Through the design of the integrated shell body, the shell body is attractive in appearance and free of screws and rivets while the anti-theft effect is met
3. Through the assembly of the integrated evaporator cavity, an indoor and outdoor partition plate is cancelled, the indoor side maintenance is realized, the anti-theft requirement is met, the assembly of production personnel is facilitated, the maintenance of after-sale personnel is facilitated, and the assembly efficiency of the whole unit assembly is improved.
The utility model provides an integrated cabinet air conditioner which is anti-theft, attractive and convenient to install and maintain.
The integrated cabinet air conditioner provided by the utility model is characterized in that the whole machine is divided into an indoor cavity and an outdoor cavity through the first shell, the second shell and the door plate. Wherein the indoor cavity is composed of a second shell and a door plate; the cavity of the whole machine except the indoor cavity is an outdoor cavity. The indoor cavity mainly comprises an evaporator part, an electric appliance box part and an indoor fan part; the outdoor chamber mainly includes a condenser part, a compressor, an outdoor fan assembly, etc. The indoor cavity of the evaporator is integrally assembled through the design of the second shell, and the modularized installation of the internal components of the evaporator cavity is realized through the guide sliding support beam structure on the second shell. The indoor side is used for completing the assembly and after-sale maintenance of all components. Through the design of the integrated first shell, fasteners such as bolts and rivets on the outdoor side are realized, and the effects of attractiveness and theft prevention are achieved.
In some embodiments, the interior of the first housing 100 and the exterior of the second housing 940 and the door panel assembly 800 together define a condensation chamber sealed with respect to the interior of the second housing 940, and the interior of the second housing 940 and the door panel assembly 800 together define an evaporation chamber sealed with respect to the condensation chamber. The first shell and the second shell are preferably in a structural form, namely a relatively sealed condensation cavity and an evaporation cavity are formed, the original partition plate structure can be effectively eliminated, the second shell enters the first shell from the interior, a structure that the first shell is not provided with connecting assemblies towards the outdoor part can be effectively formed, an integrated outer shell design is formed, the shell is attractive in appearance and free of screws and rivets while the anti-theft effect is met.
As shown in fig. 1, the integrated cabinet air conditioner divides the whole machine into an indoor chamber and an outdoor chamber (respectively, an evaporation chamber 510 and a condensation chamber 210 shown in fig. 4) by a first casing 100, a second casing 940 and a door panel assembly 800; the indoor cavity mainly comprises an evaporator part 500, an electrical box part 900, an inner fan part 930 and the like; the outdoor cavity mainly comprises a condenser part 200, a compressor and an outer fan assembly 600, wherein the first shell 100 and the second shell 940 are provided with folded edge surfaces matched with the door panel assembly 800, and the first shell 100 and the second shell 940 are tightly attached to form a whole machine through a plurality of door panel screw holes 801 on the folded edge surfaces. Preferably, sponge or sealant is attached between the matching surfaces, and the sealing effect is achieved after the door panel is assembled.
The first casing 100 has a second casing support beam 130, a flange frame 110, a compressor positioning bolt 150, and an outer fan fixing bracket 160.
Four flange frames 110 are welded around the first casing 100; preferably, two adjacent flange frames of the four flange frames are connected with each other at the end part through a fastener; the flange frames 110 are provided with a plurality of first mounting holes 111, and the surfaces of the four flange frames perpendicular to the unit surface are used for being assembled with the surface on the inner side of a door body of a container (an energy storage cabinet and a machine room) through the first mounting holes 111, so that the unit is mounted outwards.
Three compressor positioning bolts 150 are welded on the first shell 100 for assembling and positioning the compressor 400; an outer fan fixing support 160 is welded on the first shell 100 and used for assembling and positioning the outer fan assembly 600;
the inner sides of the two side plates of the first shell 100 are welded with second shell supporting beams 130, and the shape of the second shell supporting beams is matched with the back profile of the second shell 940, so as to ensure that the supporting beams have the front and back limiting effect. The support beam has a horizontal section at the upper and lower ends to ensure that the support beam supports and limits the second housing 940 up and down. When assembling, the second housing 940 can be slid into the first housing 100 in a drawer-type manner; preferably, the end portion below the support beam has a screw hole, and the second housing 940 and the first housing are fixed to each other after the second housing 940 is pushed in.
In some embodiments, a second shell support beam 130 is disposed on the inner wall of the first shell 100, the second shell 940 moves from the opening 10 toward the inner direction of the first shell 100 and slides along the second shell support beam 130, and finally the second shell 940 is supported on the second shell support beam 130. The second shell supporting beam is arranged on the inner wall of the first shell, so that drawer type installation and modular assembly of the second shell in the integrated cabinet air conditioner component can be realized through the guide sliding supporting beam structure, and after-sale maintenance and production are facilitated.
In some embodiments, the shape of the second shell supporting beam 130 matches with the profile of a side of the second shell 940 facing away from the door panel assembly 800, the second shell supporting beam 130 includes a first horizontal section at an upper end and a second horizontal section at a lower end, an upper portion of the side of the second shell 940 facing away from the door panel assembly 800 has a protrusion, the lower end of the protrusion is slidably clamped at the upper end of the first horizontal section, and the bottom of the second shell 940 is slidably clamped at the upper end of the second horizontal section.
The utility model also ensures that the support beam plays a role in supporting and limiting the second shell 940 up and down through the horizontal sections respectively arranged at the upper end and the lower end. During assembly, the second housing 940 may be slid into the first housing 100 in a drawer-type manner, so as to achieve drawer-type installation of the second housing inside the integrated cabinet air conditioner component.
In some embodiments, the second shell support beam 130 further comprises a structure extending continuously between the first horizontal segment and the second horizontal segment; and/or the presence of a gas in the gas,
the second shell supporting beam 130 is further provided with a first screw hole, and after the second shell 940 is slidably clamped on the second shell supporting beam 130, the second shell 940 and the second shell supporting beam 130 are fixed by screws through the first screw hole.
This is a further preferred form of construction of the second shell support beam of the second shell according to the utility model, whereby a guiding action for the second shell can be achieved by the continuously extending structure, and a further secure fixing between the second shell and the second shell support beam can be achieved by the first screw holes and screws on the second shell support beam.
In some embodiments, still include outer fan subassembly 600, outer fan air inlet grille 101 and condenser air-out grille 102, outer fan air inlet grille 101 with condenser air-out grille 102 all sets up on first casing 100, the inside of first casing 100 can pass through outer fan air inlet grille 101 is from outdoor side air inlet, and passes through condenser air-out grille 102 is to outdoor side air-out, outer fan subassembly 600 set up in the inside of first casing 100, through outer fan subassembly 600 drive air current passes through outer fan air inlet grille 101 gets into the inside of first casing 100, and pass through behind the heat transfer of condenser part 200 rethread condenser air-out grille 102 blows out.
The utility model also comprises an outer fan component, an outer fan air inlet grille 101 and a condenser air outlet grille 102, wherein the outer fan component can enable outdoor airflow to enter the first shell through the outer fan air inlet grille, then enter the condenser part for heat exchange, and blow the airflow out through the condenser air outlet grille.
In some embodiments, the outer fan assembly 600 is opposite the outer fan grille 101 and the condenser unit 200 is opposite the condenser grille 102. The air-suction type condenser is a preferred arrangement form of the outer fan assembly and the condenser components, and can suck air through the air inlet grille of the outer fan and blow air flow out through the air outlet grille of the condenser after heat exchange.
In some embodiments, a compressor positioning bolt 150 is disposed on the inner wall of the bottom of the first casing 100, and the compressor is positioned and disposed at the bottom of the first casing 100 by the compressor positioning bolt 150; and/or the presence of a gas in the gas,
an outer fan fixing bracket 160 is disposed on an inner wall of the bottom of the first casing 100, and the outer fan assembly 600 is fixed to the bottom of the first casing 100 by the outer fan fixing bracket 160.
The utility model also can position and fix the installation position of the compressor through the compressor positioning bolt, and the arrangement of the outer fan fixing bracket can position and fix the bottom of the outer fan component.
In some embodiments, when the outer fan fixing bracket 160 is disposed on the inner wall of the bottom of the first casing 100, the second casing 940 is further provided with an outer fan assembly second fixing bracket (not shown) at the bottom, the outer fan assembly second fixing bracket fixing the upper end of the outer fan assembly 600, and the outer fan fixing bracket 160 fixing the lower end of the outer fan assembly 600. The upper end of the outer fan assembly can be effectively fixed and supported by the second fixing support of the outer fan assembly at the bottom of the second shell.
In some embodiments, the air conditioner further includes an inner fan member 930, an evaporator air inlet grille 802, and an inner fan air outlet grille 806, the inner fan member 930 is disposed inside the second housing 940, the evaporator air inlet grille 802 and the inner fan air outlet grille 806 are both disposed on the door panel assembly 800, the inside of the second housing 940 can be used for supplying air from the indoor side through the evaporator air inlet grille 802 and discharging air to the indoor side through the inner fan air outlet grille 806, and the inner fan member 930 drives an air flow to enter the inside of the second housing 940 through the evaporator air inlet grille 802 and discharge the air through the inner fan air outlet grille 806 after heat exchange through the evaporator member 500.
The utility model also can lead indoor airflow to enter the second shell through the evaporator air inlet grille and then enter the evaporator part for heat exchange through the inner fan component, the evaporator air inlet grille 802 and the inner fan air outlet grille 806, and lead the airflow to be blown out through the inner fan air outlet grille.
In some embodiments, the evaporator element 500 is opposite the evaporator air intake grille 802 and the inner fan element 930 is opposite the inner fan air outlet grille 806. The air inlet grille can suck air, and the air outlet grille can blow out air flow through the inner fan after heat exchange.
In some embodiments, an inner fan member support beam 941 is disposed on an inner sidewall of the second housing 940, and the inner fan member 930 is slidably supported inside the second housing 940 by the inner fan member support beam 941. The inner fan component supporting beam is arranged on the inner wall of the second shell, so that drawer type installation and modular assembly of the second shell in the integrated cabinet air conditioner component can be realized through the guide sliding supporting beam structure, and after-sale maintenance and production are facilitated.
In some embodiments, the inner fan member support beams 941 are at least two, at least one of which is disposed on the inner sidewall of one horizontal side of the second housing 940, and at least one of which is disposed on the inner sidewall of the other horizontal side of the second housing 940; and/or the presence of a gas in the gas,
still be provided with second screw hole 946 on the interior fan part supporting beam 941, be provided with the second mounting hole on the interior fan part 930, including fan part 930 slip card locate second casing 940 in the back, interior fan part 930 is still through the second screw hole, second mounting hole and screw with interior fan part supporting beam 941 is fixed.
The utility model can also strengthen the positioning and fixing function of the inner fan component through at least two inner fan component supporting beams, and realize the firm sliding connection of the inner fan component; the inner fan component and the inner fan component support beam can be further firmly fixed through the screws through the second screw holes on the inner fan component support beam and the second mounting holes on the inner fan component.
In some embodiments, the fan further comprises an inner fan support, an electric heating component and an electric heating support, wherein the electric heating component is assembled on the electric heating support, the electric heating component is connected with the inner fan support 932, the inner fan component 930 is assembled on the inner fan support 932, and the inner fan support 932 is slidably supported on the inner fan support beam 941. The air flow can be heated by the electric heating part; inner fan member 930 pre-assembly is integrally formed as a modular unit.
In some embodiments, the electrical box assembly 900 further includes an electrical box support beam 942, the electrical box support beam 942 is disposed on an inner sidewall of the second housing 940, and the electrical box assembly 900 is slidably supported inside the second housing 940 by the electrical box support beam 942. The utility model also realizes the drawer type installation and the modularized assembly of the second shell in the integrated cabinet air conditioner component through the guiding sliding support beam structure by arranging the electric appliance box support beam on the inner wall of the second shell, thereby being convenient for after-sale maintenance and production.
In some embodiments, the electrical box support beams 942 are at least 4, at least 2 of which are disposed on the inner sidewall of one horizontal side of the second housing 940 and are respectively supported in cooperation with the upper end and the lower end of one side of the electrical box component 900, and at least 2 of which are disposed on the inner sidewall of the other horizontal side of the second housing 940 and are respectively supported in cooperation with the upper end and the lower end of one side of the electrical box component 900; and/or the presence of a gas in the gas,
the electrical box support beam 942 is further provided with a third screw hole 945, the electrical box component 900 is provided with a third mounting hole, and after the electrical box component 900 is slidably clamped in the second shell 940, the electrical box component 900 is further fixed to the electrical box support beam 942 through the third screw hole, the third mounting hole and a screw.
The utility model also can enhance the positioning and fixing effect on the electric appliance box component by at least 4 electric appliance box supporting beams, and realize the firm sliding connection on the electric appliance box component; the utility model also can form a further firm fixing function between the electric appliance box component and the electric appliance box supporting beam through the screws by the third screw holes on the electric appliance box supporting beam and the third mounting holes on the electric appliance box component.
Fig. 2 illustrates an evaporator cavity module formed by a second housing 940 according to the present invention.
After the evaporator cavity module can be drawn out from the indoor side, related parts of an outdoor machine such as a condenser can be maintained, the indoor side maintenance of all parts is realized through the assembly of the integrated evaporator cavity, meanwhile, during the production and assembly, the parts are assembled in a modularized mode from inside to outside, the outdoor shell is integrally designed, no screws and rivets exist, the appearance is attractive, and the anti-theft function is realized.
As described below, inside the second housing 940, the guiding sliding support beam structure is used to implement drawer-type installation and modular assembly of sub-modules of the integrated cabinet air conditioner components, thereby facilitating after-market maintenance and production.
Inner fan part supporting beams 941 and electrical box supporting beams 942 are welded on the inner walls of the two sides of the second shell 940;
as shown in fig. 2 to 3, it is preferable that the inner fan member support beams 941 are two in number, and the inner fan member support beams 941 serve to support the inner fan member and can be slidably assembled to the second housing 940 in a drawer type; preferably, there is a second screw hole 946 at the end of the supporting beam, and there is a corresponding mounting hole on the inner fan unit 930, and after the inner fan unit 930 is pushed into the second housing 940 in a drawer-type manner, the inner fan unit 930 can be fixed with the inner fan unit supporting beam 941 on the second housing through the screw hole. Preferably, when the assembly has electrical heating, the electrical heating may be coupled to the inner fan support by an electrical heating support, forming the inner fan assembly 930 subassembly as a modular whole.
In some embodiments, a water receiving portion 943 is disposed at the bottom of the second housing 940 below the evaporator 500, and a water outlet 944 is connected to the bottom of the water receiving portion 943, and the water outlet 944 extends downward to form a water outlet channel.
In some embodiments, a flange frame 110 is disposed around the opening 10 of the first casing 100, and a first mounting hole 111 is disposed on the flange frame 110.
At least two electrical box support beams 942 are welded on the inner walls of the two sides of the second shell 940; preferably, four electrical box support beams 942 are welded on the inner wall, and are respectively located at four corners of the electrical box component 900 to serve as a sliding guide, wherein the lower left and right electrical box support beams 942 serve as a support. Similarly, the end of the electrical box supporting beam has a third screw hole 945, four corners of the electrical box have mounting holes, and after the electrical box is pushed into the second shell 940 in a drawer-type manner, the electrical box component 900 can be fixed to the electrical box supporting beam 942 on the second shell through the screw holes.
The second shell 940 is provided with the guide sliding support beam structure of the inner fan component 930 and the electrical box component 900, so that the drawer type installation and the modular assembly of the integrated cabinet air conditioner component are realized, and the after-sale maintenance and production are convenient.
Preferably, the second housing 940 further includes an integrated water receiving box function, and forms a water receiving portion 943 for receiving the condensed water generated from the evaporator unit 500, and a drain hole or a drain pipe is further formed below the water receiving portion 943 to form a drain port 944. Preferably, a fixing bracket of the outer fan assembly 600 is welded to the bottom of the second casing 940, and the outer fan assembly 600 is fixed to the outer fan fixing bracket 160 at the bottom of the first casing 100 up and down.
As shown in fig. 4, the air supply schematic diagram of the air conditioner of the present invention is a cross-sectional view of the whole air conditioner. To the evaporation chamber 510 of indoor side, interior fan 931 is from up induced drafting down for indoor return air gets into evaporimeter part 500 through evaporimeter air-inlet grille 802 on the door plant subassembly 800 and cools down, is discharging from interior fan air-out grille 806 on the door plant subassembly 800 through evaporation chamber 510, interior fan air-out grille 806, as the air outlet cools down energy storage container or computer lab inner space, can connect the tuber pipe wind channel corresponding with the air outlet size and carry out the cooling to battery compartment or computer lab. For the outdoor side, the outer fan assembly 600 is located at the bottom of the unit, and exhausts air from the condenser outlet grill 102 of the first casing 100 to the outdoor side through the condensing chamber and the condenser part 200 by supplying air through the outer fan inlet grill 101.
As shown in figures 5a-5c, the appearance of the whole machine is shown, no screws or rivets are arranged outside the room, and the outdoor anti-theft door is attractive and anti-theft.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention. The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (18)

1. An integration rack air conditioner which characterized in that: the method comprises the following steps:
first casing (100), compressor, condenser part (200), second casing (940), evaporator part (500) and door plant subassembly (800), condenser part (200) with the compressor set up in the inside of first casing (100), first casing (100) is formed with opening (10) towards indoor direction, second casing (940) can follow opening (10) assembly gets into the inside of first casing (100), evaporator part (500) set up in the inside of second casing (940), door plant subassembly (800) can cover and locate first casing (100) opening (10) position, with second casing (940) hold in the inside of first casing (100) completely.
2. The integrated cabinet air conditioner of claim 1, wherein:
the interior of the first housing (100) and the exterior of the second housing (940) and the door panel assembly (800) together define a condensation chamber sealed with respect to the interior of the second housing (940), and the interior of the second housing (940) and the door panel assembly (800) together define an evaporation chamber sealed with respect to the condensation chamber.
3. The integrated cabinet air conditioner of claim 1, wherein:
a second shell supporting beam (130) is arranged on the inner wall of the first shell (100), the second shell (940) moves towards the inner direction of the first shell (100) from the opening (10) and slides along the second shell supporting beam (130) to be clamped, and finally the second shell (940) is supported on the second shell supporting beam (130).
4. The integrated cabinet air conditioner of claim 3, wherein:
the shape of second casing supporting beam (130) and deviating from of second casing (940) one side profile of door plant subassembly (800) cooperatees, second casing supporting beam (130) are including the first horizontal segment that is located the upper end and the second horizontal segment that is located the lower extreme, deviating from of second casing (940) the upper portion of one side of door plant subassembly (800) has the arch, bellied lower extreme slip joint is in first horizontal segment upper end, the bottom slip joint of second casing (940) is in the upper end of second horizontal segment.
5. The integrated cabinet air conditioner of claim 4, wherein:
the second shell support beam (130) further comprises a structure extending continuously between the first horizontal segment and the second horizontal segment; and/or the presence of a gas in the gas,
the second shell supporting beam (130) is further provided with a first screw hole, and after the second shell (940) is slidably clamped on the second shell supporting beam (130), the second shell (940) and the second shell supporting beam (130) are fixed through the first screw hole by a screw.
6. The integrated cabinet air conditioner of claim 1, wherein:
still include outer fan subassembly (600), outer fan air-inlet grille (101) and condenser air-outlet grille (102), outer fan air-inlet grille (101) with condenser air-outlet grille (102) all set up on first casing (100), the inside of first casing (100) can pass through outer fan air-inlet grille (101) is from outdoor side air-inlet, and passes through condenser air-outlet grille (102) is to outdoor side air-outlet, outer fan subassembly (600) set up in the inside of first casing (100), through outer fan subassembly (600) drive air current passes through outer fan air-inlet grille (101) gets into the inside of first casing (100), and pass through behind condenser part (200) heat transfer rethread condenser air-outlet grille (102) blows out.
7. The integrated cabinet air conditioner of claim 6, wherein:
the outer fan assembly (600) is opposite to the outer fan air inlet grille (101), and the condenser part (200) is opposite to the condenser air outlet grille (102).
8. The integrated cabinet air conditioner of claim 6, wherein:
a compressor positioning bolt (150) is arranged on the inner wall of the bottom of the first shell (100), and the compressor is positioned and arranged at the bottom of the first shell (100) by the compressor positioning bolt (150); and/or the presence of a gas in the gas,
an outer fan fixing support (160) is arranged on the inner wall of the bottom of the first shell (100), and the outer fan assembly (600) is fixedly arranged at the bottom of the first shell (100) through the outer fan fixing support (160).
9. The integrated cabinet air conditioner of claim 8, wherein:
when an outer fan fixing support (160) is arranged on the inner wall of the bottom of the first shell (100), an outer fan component second fixing support is further arranged at the bottom of the second shell (940), the upper end of the outer fan component (600) is fixed by the outer fan component second fixing support, and the lower end of the outer fan component (600) is fixed by the outer fan fixing support (160).
10. The integrated cabinet air conditioner of claim 1, wherein:
the indoor air conditioner further comprises an inner fan component (930), an evaporator air inlet grille (802) and an inner fan air outlet grille (806), wherein the inner fan component (930) is arranged inside the second shell (940), the evaporator air inlet grille (802) and the inner fan air outlet grille (806) are arranged on the door panel component (800), air can be fed from the indoor side through the evaporator air inlet grille (802) to the indoor side through the inner fan air outlet grille (806), air flow is driven to enter the inside of the second shell (940) through the evaporator air inlet grille (802) through the inner fan component (930), and the air flow is blown out through the inner fan air outlet grille (806) after heat exchange of the evaporator component (500).
11. The integrated cabinet air conditioner of claim 10, wherein:
the evaporator element (500) is opposite the evaporator air inlet grille (802), and the inner fan element (930) is opposite the inner fan air outlet grille (806).
12. The integrated cabinet air conditioner of claim 10, wherein:
an inner fan part supporting beam (941) is arranged on the inner side wall of the second casing (940), and the inner fan part (930) is supported in the second casing (940) in a sliding mode through the inner fan part supporting beam (941).
13. The integrated cabinet air conditioner of claim 12, wherein:
the number of the inner fan part supporting beams (941) is at least two, at least one of the inner fan part supporting beams is arranged on the inner side wall of one horizontal side of the second shell (940), and at least one of the inner fan part supporting beams is arranged on the inner side wall of the other horizontal side of the second shell (940); and/or the presence of a gas in the gas,
still be provided with second screw hole (946) on interior fan part supporting beam (941), be provided with the second mounting hole on interior fan part (930), including fan part (930) slip card locate second casing (940) in the back, interior fan part (930) still passes through the second screw hole second mounting hole and screw with interior fan part supporting beam (941) is fixed.
14. The integrated cabinet air conditioner of claim 12, wherein:
still include interior fan support (932), electric heating part and electric heating support, the electric heating part assemble in on the electric heating support, the electric heating part with interior fan support (932) link together, interior fan part (930) assemble in on interior fan support (932), interior fan support (932) sliding support with on interior fan part supporting beam (941).
15. The integrated cabinet air conditioner of claim 1, wherein:
the electrical box comprises an electrical box component (900) and an electrical box supporting beam (942), wherein the electrical box supporting beam (942) is arranged on the inner side wall of the second shell (940), and the electrical box component (900) is supported in the second shell (940) in a sliding mode through the electrical box supporting beam (942).
16. The integrated cabinet air conditioner of claim 15, wherein:
the number of the electric appliance box supporting beams (942) is at least 4, at least 2 of the electric appliance box supporting beams are arranged on the inner side wall of one horizontal side of the second shell (940) and are respectively matched and supported with the upper end and the lower end of one side of the electric appliance box component (900), and at least 2 of the electric appliance box supporting beams are arranged on the inner side wall of the other horizontal side of the second shell (940) and are respectively matched and supported with the upper end and the lower end of one side of the electric appliance box component (900); and/or the presence of a gas in the gas,
the electrical box supporting beam (942) is further provided with a third screw hole (945), the electrical box component (900) is provided with a third mounting hole, and after the electrical box component (900) is slidably clamped in the second shell (940), the electrical box component (900) is further fixed with the electrical box supporting beam (942) through the third screw hole, the third mounting hole and a screw.
17. The integrated cabinet air conditioner of claim 1, wherein:
a water receiving portion (943) is arranged at the bottom of the second shell (940) and below the evaporator component (500), a water outlet (944) is communicated with the bottom of the water receiving portion (943), and the water outlet (944) extends downwards to form a water discharging channel.
18. The integrated cabinet air conditioner of claim 1, wherein:
a flange frame (110) is arranged on the periphery of the opening (10) of the first shell (100), and a first mounting hole (111) is formed in the flange frame (110).
CN202123154351.2U 2021-12-15 2021-12-15 Integrated cabinet air conditioner Active CN216557417U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202123154351.2U CN216557417U (en) 2021-12-15 2021-12-15 Integrated cabinet air conditioner

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202123154351.2U CN216557417U (en) 2021-12-15 2021-12-15 Integrated cabinet air conditioner

Publications (1)

Publication Number Publication Date
CN216557417U true CN216557417U (en) 2022-05-17

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Family Applications (1)

Application Number Title Priority Date Filing Date
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Country Link
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114110803A (en) * 2021-12-15 2022-03-01 珠海格力电器股份有限公司 Integrated cabinet air conditioner
WO2024001090A1 (en) * 2022-06-27 2024-01-04 珠海格力电器股份有限公司 Air treatment device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114110803A (en) * 2021-12-15 2022-03-01 珠海格力电器股份有限公司 Integrated cabinet air conditioner
WO2024001090A1 (en) * 2022-06-27 2024-01-04 珠海格力电器股份有限公司 Air treatment device

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