CN114636208A - Outdoor air conditioner and refrigerator all-in-one machine - Google Patents

Abstract

The outdoor air-conditioning and refrigerator integrated machine has the advantages that the common refrigerating component is arranged, and the refrigerant is respectively and independently provided for the refrigerator component and the air-conditioning component, so that the refrigerator component and the air-conditioning component can run independently, and when only goods need to be refrigerated, the refrigerating component controls the refrigerant to flow to the refrigerator component, so that the temperature in the refrigerator component is reduced to the temperature capable of refrigerating the goods; when the temperature of the surrounding environment is reduced only by blowing air, the refrigerating assembly controls the refrigerant to flow to the air conditioning assembly, so that cold air blown out of the air conditioning assembly can reduce the temperature of the surrounding environment; when two demands of refrigerating articles and reducing the ambient temperature are needed simultaneously, the refrigerating assembly controls the refrigerant to simultaneously and respectively flow to the refrigerator assembly and the air conditioner assembly, so that the outdoor air conditioner and refrigerator all-in-one machine has the functions of an air conditioner and a refrigerator simultaneously, and has the advantages of high intelligence, high refrigerating efficiency, sufficient refrigerating capacity, low power consumption and high intelligence degree.

Description

Outdoor air conditioner and refrigerator all-in-one machine

Technical Field

The invention relates to the technical field of outdoor refrigeration equipment, in particular to an outdoor air conditioner and refrigerator all-in-one machine.

Background

With the rapid development of society, people are not pursuing substances, and more interested in outdoor activities (such as camping activities) to satisfy the desire of people on the spirit level, but in summer, too high temperature is one of important factors influencing people in outdoor activities, and in hot summer, cold drinks and frozen foods are also very needed in outdoor activities, so the outdoor air-conditioning and refrigerator all-in-one machine is designed, but the outdoor air-conditioning and refrigerator all-in-one machine in the prior art usually has an air cooling device, cold air used for cooling drinks and foods in a refrigerator box body is blown out of an air door through the air door, so that the ambient temperature is reduced, an air-conditioning component and a refrigerator component in the outdoor air-conditioning and refrigerator all-in-one machine adopting the design cannot independently operate, and the air-conditioning component and the refrigerator component cannot operate simultaneously to realize blowing air to reduce the ambient temperature, the refrigeration system has the defects of low refrigeration efficiency, insufficient refrigeration capacity, large power consumption and low intelligence.

The invention is developed and proposed aiming at the defects of the prior art.

Disclosure of Invention

The outdoor air conditioner refrigerator all-in-one machine among the prior art to the aforesaid mention is usually through setting up the air cooling device, the cold air that is used for behind the cooling beverage food in the refrigerator box blows out through the air door, thereby reduce ambient temperature on every side, air conditioning subassembly and the unable independent operation of refrigerator subassembly in the outdoor air conditioner refrigerator all-in-one machine of adopting this kind of design, must both move simultaneously and just enable air conditioning subassembly to realize blowing and reduce ambient temperature on every side, there is the refrigeration inefficiency, the refrigerating output is not enough, the power consumption is big, the not high technical problem of intellectuality.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides an outdoor air conditioner refrigerator all-in-one, includes the casing, be equipped with the refrigerator subassembly that is used for cold-stored article in the casing for blow the air conditioner subassembly that reduces ambient temperature, be used for respectively for refrigerator subassembly and air conditioner subassembly provide the refrigeration subassembly of refrigerant, and be used for the power supply subassembly of respectively for refrigerator subassembly, air conditioner subassembly and refrigeration subassembly power supply.

The outdoor air conditioner and refrigerator integrated machine comprises a compressor and a condenser which are sequentially connected, wherein a connecting pipeline B is connected to the refrigerant output end of the condenser, a refrigerant flow direction control component is arranged on the connecting pipeline B and is respectively connected with the refrigerator component and the air conditioner component, and the refrigerant flow direction control component is used for guiding a refrigerant conveyed by the connecting pipeline B to the refrigerator component and/or the air conditioner component.

As above, the outdoor air-conditioning and refrigerator integrated machine, the refrigerant flow direction control component comprises a flow direction controller and a connecting pipeline C which are connected in sequence, the input end of the flow direction controller is connected with the connecting pipeline B, the connecting pipeline A is arranged between the compressor and the condenser, the connecting pipeline C is arranged between one of the refrigerant output ends of the flow direction controller and the refrigerator component, the connecting pipeline D is arranged between the refrigerator component and the compressor, the connecting pipeline A, the condenser, the connecting pipeline B, the flow direction controller, the connecting pipeline C, the refrigerator component and the connecting pipeline D are communicated in sequence to form a refrigerator circulating refrigeration loop.

The outdoor air conditioner and refrigerator integrated machine comprises a flow controller, a refrigerant flow direction control component and a compressor, wherein the refrigerant flow direction control component further comprises a connecting pipeline E, the connecting pipeline E is arranged between the other refrigerant output end of the flow controller and an air conditioner component, a connecting pipeline F is arranged between the air conditioner component and the compressor, the connecting pipeline A, the condenser, the connecting pipeline B, the flow controller, the connecting pipeline E, the air conditioner component and the connecting pipeline F are sequentially communicated to form an air conditioner circulating refrigeration loop.

The outdoor air-conditioning and refrigerator integrated machine comprises an air-conditioning evaporator, an air-conditioning fan and an air suction channel, wherein the air suction channel is arranged on the inner side wall of a shell, the air suction channel is provided with an air inlet A for allowing outside air to enter the air suction channel, the shell is provided with an air inlet notch corresponding to the air inlet A, and the air inlet notch is communicated with the air inlet A; the air conditioner evaporator is arranged in the air suction channel and used for carrying out heat exchange on air entering the air suction channel from the air inlet A, the connecting pipeline E is connected with the refrigerant input end of the air conditioner evaporator, the connecting pipeline F is connected with the refrigerant output end of the air conditioner evaporator, and the air suction channel is further provided with an avoidance hole A for avoiding the connecting pipeline E and an avoidance hole B for avoiding the connecting pipeline F; be equipped with on the top of the passageway that induced drafts and supply air conditioner fan's air inlet B to inhale the inlet scoop of air after the heat transfer of air conditioner evaporimeter, air conditioner fan's air inlet B and inlet scoop sealing connection, still be equipped with the air-out notch corresponding with air conditioner fan's air outlet on the casing, air conditioner fan's air outlet and air-out notch sealing connection, it sweeps the wind board to rotate to be connected with on the air-out notch, it is used for adjusting the flow direction of the air current that air conditioner fan air outlet blows off to sweep the wind board.

The outdoor air-conditioning and refrigerator all-in-one machine is characterized in that a water receiving disc is arranged below an air-conditioning evaporator and used for receiving condensed water generated by the air-conditioning evaporator, the air-conditioning evaporator and the water receiving disc are arranged in an air suction channel in a downward inclined mode at the rear portion, the bottom of the water receiving disc gradually descends from one side of the bottom of the water receiving disc to the other side of the bottom of the water receiving disc in the length direction to form a slope, a drain pipe extending outwards is arranged on one side of the bottom of the water receiving disc, a water outlet is formed in the shell and extends to the position of the drain pipe and is communicated with the drain pipe, and an air inlet C for air sucked by an air inlet A to flow into the air-conditioning evaporator is formed in the middle area of the bottom of the water receiving disc.

According to the outdoor air conditioner and refrigerator all-in-one machine, the shell is provided with the control panel, and the control panel is electrically connected with the air conditioner fan, the compressor, the flow direction controller and the power supply assembly.

The outdoor air-conditioning and refrigerator integrated machine comprises a refrigerator box body and a condenser pipe, wherein the refrigerator box body is of a barrel-shaped structure with an upward opening, a shell opening corresponding to the box opening of the refrigerator box body is formed in the top of the shell, the refrigerator box body is connected with the top of the shell in a sealing mode at the shell opening, a refrigerator box cover used for sealing the shell opening is connected to the top of the shell in a rotating mode, the condenser pipe is wound on the outer side wall of the refrigerator box body and used for conducting heat exchange and refrigeration on the space in the refrigerator box body, one end of the condenser pipe is communicated with a connecting pipeline C, the other end of the condenser pipe is communicated with a connecting pipeline D, a heat insulation layer is wrapped on the outer side wall of the refrigerator box body, and the condenser pipe is located between the refrigerator box body and the heat insulation layer.

As above, be equipped with the temperature-sensing ware of asking that is used for detecting refrigerator box inner space temperature on the refrigerator box, be equipped with the temperature probe that extends into refrigerator box inner space on the temperature-sensing ware, be equipped with the electric property socket that extends outside the heat preservation layer on the temperature-sensing ware, be equipped with on the heat preservation layer and supply electric property socket and stretch out and dodge hole C, the temperature-sensing ware pass through electric property socket respectively with flow direction controller and power supply unit electric connection.

As above, the outdoor air-conditioning and refrigerator all-in-one machine is characterized in that the shell is provided with a refrigerator temperature display screen, the refrigerator temperature display screen is electrically connected with the temperature sensor, and the refrigerator temperature display screen is used for displaying the temperature of the inner space of a refrigerator body.

The invention has the beneficial effects that:

1. the outdoor air-conditioning and refrigerator integrated machine has the advantages that the common refrigerating component is arranged, and the refrigerant is respectively and independently provided for the refrigerator component and the air-conditioning component, so that the refrigerator component and the air-conditioning component can run independently, and when only goods need to be refrigerated, the refrigerating component controls the refrigerant to flow to the refrigerator component, so that the temperature in the refrigerator component is reduced to the temperature capable of refrigerating the goods; when the temperature of the surrounding environment is reduced only by blowing air, the refrigerating assembly controls the refrigerant to flow to the air conditioning assembly, so that cold air blown out of the air conditioning assembly can reduce the temperature of the surrounding environment; when two kinds of demands of cold-stored article and reduction ambient temperature of needs simultaneously, refrigeration subassembly control refrigerant flows to refrigerator subassembly and air conditioner subassembly respectively simultaneously for outdoor air conditioner refrigerator all-in-one has air conditioner and refrigerator function simultaneously, has intelligent height, and refrigeration efficiency is high, and the refrigerating output is sufficient, and the power consumption is less, advantage that intelligent degree is high.

2. The outdoor air-conditioning and refrigerator integrated machine sucks a refrigerant through the compressor, the refrigerant is conveyed into the condenser through the connecting pipeline A to be cooled, and then the cooled refrigerant is conveyed into the flow direction controller through the connecting pipeline B; 2) when the air conditioning assembly is required to blow air to reduce the temperature of the surrounding environment, the refrigerant output end connected with the connecting pipeline E on the flow direction controller is opened, the refrigerant flows to the air conditioning assembly through the connecting pipeline E and exchanges heat with air in the air conditioning assembly, the air conditioning assembly blows out the air after heat exchange and temperature reduction, so that the temperature of the surrounding environment is reduced, and then the refrigerant after heat exchange is conveyed back to the compressor through the connecting pipeline F to restart the air conditioning for circulating refrigeration; 3) when the air conditioning assembly and the refrigerator assembly are required to work simultaneously, two refrigerant output ends on the flow direction controller are opened simultaneously, and the refrigerant is supplied to the air conditioning assembly and the refrigerator assembly simultaneously, so that the outdoor air conditioning and refrigerator all-in-one machine has the functions of an air conditioner and a refrigerator simultaneously; the refrigerating device has the advantages of simple structure, convenience in operation, high refrigerating efficiency, sufficient refrigerating capacity and smaller power consumption.

The invention will be further described with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a second schematic view of the present invention;

FIG. 3 is a schematic view of a hidden portion of the housing according to the present invention;

FIG. 4 is a schematic view of the present invention showing a hidden part of the housing, the charging plug B and the drain outlet;

FIG. 5 is a schematic view of the hidden portion of the shell and the insulating layer according to the present invention;

FIG. 6 is a schematic cross-sectional view of the present invention;

FIG. 7 is a schematic view of the air conditioning assembly of the present invention;

FIG. 8 is an exploded view of the air conditioning assembly of the present invention;

FIG. 9 is an exploded view of the power supply assembly of the present invention;

fig. 10 is a cross-sectional schematic view of the power supply assembly of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 10, the outdoor air-conditioning and refrigerator all-in-one machine of the embodiment includes a casing 1, a refrigerator assembly 2 for refrigerating articles, an air-conditioning assembly 3 for blowing air to reduce ambient temperature, a refrigerating assembly 4 for respectively providing refrigerants for the refrigerator assembly 2 and the air-conditioning assembly 3, and a power supply assembly 5 for respectively supplying power to the refrigerator assembly 2, the air-conditioning assembly 3, and the refrigerating assembly 4 are arranged in the casing 1; the outdoor air-conditioning and refrigerator integrated machine has the advantages that the common refrigerating component is arranged, and the refrigerant is respectively and independently provided for the refrigerator component and the air-conditioning component, so that the refrigerator component and the air-conditioning component can run independently, and when only goods need to be refrigerated, the refrigerating component controls the refrigerant to flow to the refrigerator component, so that the temperature in the refrigerator component is reduced to the temperature capable of refrigerating the goods; when the temperature of the surrounding environment is reduced only by blowing air, the refrigerating assembly controls the refrigerant to flow to the air conditioning assembly, so that cold air blown out of the air conditioning assembly can reduce the temperature of the surrounding environment; when two kinds of demands of cold-stored article and reduction ambient temperature of needs simultaneously, refrigeration subassembly control refrigerant flows to refrigerator subassembly and air conditioner subassembly respectively simultaneously for outdoor air conditioner refrigerator all-in-one has air conditioner and refrigerator function simultaneously, has intelligent height, and refrigeration efficiency is high, and the refrigerating output is sufficient, and the power consumption is less, advantage that intelligent degree is high.

In this embodiment, the refrigeration assembly 4 includes a compressor 41 and a condenser 42 that are sequentially connected, a connection pipeline B is connected to a refrigerant output end of the condenser 42, a refrigerant flow direction control member is arranged on the connection pipeline B, the refrigerant flow direction control member is respectively connected to the refrigerator assembly 2 and the air conditioner assembly 3, and the refrigerant flow direction control member is used for guiding a refrigerant conveyed by the connection pipeline B to the refrigerator assembly 2 and/or the air conditioner assembly 3; the refrigeration assembly sucks a refrigerant through the compressor, then conveys the refrigerant into the condenser for cooling, and then conveys the cooled refrigerant into the refrigerant flow direction control component through a connecting pipeline B; 2) when the air conditioning assembly is required to blow air to reduce the temperature of the surrounding environment, the refrigerant flow direction control component controls the refrigerant cooled by the condenser to flow to the air conditioning assembly to exchange heat with the air in the air conditioning assembly, the air conditioning assembly blows out the air after heat exchange and temperature reduction so as to reduce the temperature of the surrounding environment, then the refrigerant after heat exchange is conveyed back to the compressor, and the air conditioning is started again for circulating refrigeration; 3) when the air conditioner assembly and the refrigerator assembly are required to work simultaneously, the refrigerant flow direction control component controls the refrigerant to be supplied to the air conditioner assembly and the refrigerator assembly simultaneously, so that the outdoor air conditioner and refrigerator all-in-one machine has the functions of an air conditioner and a refrigerator simultaneously; the refrigeration system has the advantages of simple structure, convenience in operation, high refrigeration efficiency, sufficient refrigeration capacity and smaller power consumption.

In this embodiment, the refrigerant flow direction control member includes a flow direction controller and a connection pipeline C21 connected in sequence, an input end of the flow direction controller is connected to a connection pipeline B, a connection pipeline a is arranged between the compressor 41 and the condenser 42, the connection pipeline C21 is arranged between one refrigerant output end of the flow direction controller and the refrigerator component 2, a connection pipeline D22 is arranged between the refrigerator component 2 and the compressor 41, the connection pipeline a, the condenser 42, the connection pipeline B, the flow direction controller, the connection pipeline C21, the refrigerator component 2, and the connection pipeline D22 are sequentially communicated to form a refrigerator circulating refrigeration loop; the refrigeration subassembly passes through the compressor inhales the refrigerant, carry the refrigerant to the condenser in through connecting tube A and cool off, then the refrigerant after the cooling is carried to flow direction controller in through connecting tube B, when the cold-stored article of needs refrigerator subassembly, the refrigerant output end of being connected with connecting tube C on the flow direction controller is opened, the refrigerant passes through connecting tube C and flows to the refrigerator subassembly, and carry out the heat transfer to the environment in the refrigerator subassembly, reduce the temperature in the refrigerator subassembly, then the refrigerant that the heat transfer was accomplished passes through connecting tube D and carries back to the compressor in, open refrigerator circulating refrigeration again.

In this embodiment, the refrigerant flow direction control member further includes a connection pipeline E31, the connection pipeline E31 is disposed between the other refrigerant output end of the flow direction controller and the air conditioning assembly 3, a connection pipeline F32 is disposed between the air conditioning assembly 3 and the compressor 41, the connection pipeline a, the condenser 42, the connection pipeline B, the flow direction controller, the connection pipeline E31, the air conditioning assembly 3, and the connection pipeline F32 are sequentially communicated to form an air conditioning circulation refrigeration loop; when the air conditioning assembly is required to blow air to reduce the temperature of the surrounding environment, the refrigerant output end connected with the connecting pipeline E on the flow direction controller is opened, the refrigerant flows to the air conditioning assembly through the connecting pipeline E and exchanges heat with air in the air conditioning assembly, the air conditioning assembly blows out the air after heat exchange and cooling, the temperature of the surrounding environment is reduced, and then the refrigerant after heat exchange is conveyed back to the compressor through the connecting pipeline F to restart the air conditioning cycle refrigeration.

In this embodiment, when air conditioner subassembly and refrigerator subassembly are worked simultaneously in needs, two refrigerant output ends on the flow direction controller are opened simultaneously, and the refrigerant supplies to air conditioner subassembly and refrigerator subassembly simultaneously for outdoor air conditioner refrigerator all-in-one has air conditioner and refrigerator function simultaneously.

In this embodiment, the flow direction controller is preferably a three-way solenoid valve.

In this embodiment, the joint between the compressor and the connecting pipeline D and the joint between the compressor and the connecting pipeline F are provided with the backflow prevention device, and the backflow prevention device prevents the refrigerant in the connecting pipeline D from flowing back into the refrigerator assembly and prevents the refrigerant in the connecting pipeline F from flowing back into the air conditioner assembly, so that the refrigerants in the connecting pipeline D and the connecting pipeline F only flow towards the compressor; the backflow prevention device can be a one-way valve A arranged on the connecting pipeline D and a one-way valve B arranged on the connecting pipeline F, and the one-way valve A and the one-way valve B are respectively connected with the compressor; the anti-reflux device can also be a three-way electromagnetic valve, the connecting pipeline D and the connecting pipeline F are respectively connected with two input ends of the three-way electromagnetic valve, and the output end of the three-way electromagnetic valve is connected with the compressor.

In this embodiment, the side of condenser 42 is provided with radiator fan A43, radiator fan A43 is used for accelerating condenser and external environment's air convection, promotes condenser 42's cooling efficiency, be equipped with on the both sides of casing 1 and be used for supplying the functional unit in the casing 1 to carry out radiating heat dissipation exhaust vent 11, radiator fan A43's output is just to heat dissipation exhaust vent 11.

In this embodiment, the air conditioning assembly 3 includes an air conditioning evaporator 33, an air conditioning fan 34 and an air suction channel 35, the air suction channel 35 is disposed on an inner side wall of the casing 1, the air suction channel 35 is provided with an air inlet a351 through which outside air enters the air suction channel 35, the casing 1 is provided with an air inlet notch 12 corresponding to the air inlet a351, and the air inlet notch 12 is communicated with the air inlet a 351; the air conditioner evaporator 33 is arranged in the air suction channel 35, the air conditioner evaporator 33 is used for carrying out heat exchange on air entering the air suction channel 35 from the air inlet A351, the connecting pipeline E31 is connected with a refrigerant input end of the air conditioner evaporator 33, the connecting pipeline F is connected with a refrigerant output end of the air conditioner evaporator 33, and the air suction channel 35 is further provided with an avoidance hole A for avoiding the connecting pipeline E31 and an avoidance hole B for avoiding the connecting pipeline F32; an air suction opening 352 through which air subjected to heat exchange by the air conditioner evaporator 33 is sucked by an air inlet B of the air suction channel 35 is formed in the top of the air suction channel 35, the air inlet B of the air conditioner fan 34 is hermetically connected with the air suction opening 352, an air outlet notch 13 corresponding to an air outlet of the air conditioner fan 34 is further formed in the shell 1, the air outlet of the air conditioner fan 34 is hermetically connected with the air outlet notch 13, an air sweeping plate 14 is rotatably connected to the air outlet notch 13, and the air sweeping plate 14 is used for adjusting the flow direction of air flow blown out by the air outlet of the air conditioner fan 34; the refrigerant is conveyed into the air conditioner evaporator through a connecting pipeline E to exchange heat with air in the air suction channel, and then flows back into the compressor through a connecting pipeline F; when the air conditioner fan is opened, air in the air suction channel is sucked through the air suction port in the air suction channel by the air inlet B of the air conditioner fan, negative pressure is formed in the air suction channel, external air sequentially passes through the air inlet notch in the shell, the air inlet A in the air suction channel enters the air suction channel, then the air is subjected to heat exchange and cooling through the air conditioner evaporator, the cooled air sequentially passes through the air suction port and the air inlet B and enters the air conditioner fan, and blows towards the air outlet notch in the shell through the air outlet in the air conditioner fan, the cooled air is blown out through the air outlet notch, the ambient temperature is reduced, a user can also control the flow direction of air flow blown out from the air outlet of the air conditioner fan by adjusting the angle of the air sweeping plate.

In this embodiment, a water pan 36 is disposed below the air-conditioning evaporator 33, the water pan 36 is used for receiving condensed water generated by the air-conditioning evaporator 33 during heat exchange, the rear portions of the air-conditioning evaporator 33 and the water pan 36 are both arranged in the air suction channel 35 in a downward-inclined manner, the bottom of the water pan 36 gradually decreases from one side of the bottom of the water pan 36 to the other side thereof in the length direction to form a slope, an outwardly-extending drain pipe 361 is disposed on one side of the lowest region of the bottom of the water pan 36, a drain opening 15 is disposed on the casing 1, the drain pipe 361 extends to and communicates with the drain opening 15, and an air inlet C362 for air sucked by the air inlet a351 to pass through the air-conditioning evaporator 33 is disposed in the middle region of the bottom of the water pan 36; when the air-conditioning assembly operates, condensed water generated by the air-conditioning evaporator in the heat exchange process flows to the bottom of the air-conditioning evaporator along the air-conditioning evaporator and then drips into the water pan from the bottom of the air-conditioning evaporator, then the condensed water easily flows to the lowest area of the water pan along the slope of the length direction of the water pan and flows into the drain pipe, and the condensed water is collected and cleaned through the drain port of the shell; and the middle area at the bottom of the water receiving disc is provided with an air inlet C for leading air sucked by the air inlet A to the air-conditioning evaporator, so that the water receiving disc does not obstruct the air from passing through the air-conditioning evaporator, and the air suction volume of the air-conditioning fan is ensured.

In this embodiment, the casing 1 is provided with a control panel 16, and the control panel 16 is electrically connected to the air conditioner blower 34, the compressor 41, the flow direction controller, the cooling fan a43 and the power supply module 5; the control panel can control the on-off of the air conditioner fan and the size of the air output, the control panel can control the on-off of the compressor and the size of the running power, and the control panel can control the refrigerant input end on the flow direction controller and the on-off between the two refrigerant output ends.

In this embodiment, the refrigerator assembly 2 includes a refrigerator body 23 and a condenser pipe 24, the refrigerator body 23 is a barrel-shaped structure with an upward opening, a case opening corresponding to the case opening of the refrigerator body 23 is disposed at the top of the case 1, the refrigerator body 23 is hermetically connected with the top of the case 1 at the case opening, a refrigerator cover 17 for closing the case opening is rotatably connected to the top of the case 1, the condenser pipe 24 is wound on the outer side wall of the refrigerator body 23, the condenser pipe 24 is used for performing heat exchange and refrigeration on the space in the refrigerator body 23, one end of the condenser pipe 24 is communicated with a connecting pipeline C21, the other end of the condenser pipe 24 is communicated with a connecting pipeline D22, an insulating layer 25 is coated on the outer side wall of the refrigerator body 23, the condenser pipe 24 is located between the refrigerator body 23 and the insulating layer 25, and the insulating layer passes through a foam insulating layer formed by foaming, the outer side wall of the refrigerator body 23 is made of aluminum plate materials. A foam material insulating layer 171 formed by foaming is also arranged in the refrigerator cover 17; the heat exchange between the inside and the outside of the refrigerator is reduced, and the heat preservation effect of the refrigerator is further improved; when the articles in the refrigerator body need to be refrigerated, the refrigerant is conveyed into the condensation pipe through the connecting pipeline C to exchange heat with the cavity in the refrigerator body, then flows back into the compressor through the connecting pipeline D, and exchanges heat with the cavity in the refrigerator body in a circulating mode all the time, and a user can put or take out the articles in the refrigerator body by opening or closing the refrigerator cover; and the cladding has the heat preservation on the lateral wall of refrigerator box to and also set up the heat preservation in the refrigerator case lid, make when refrigeration subassembly stops to carry the refrigerant to the condenser pipe, the heat preservation can completely cut off the heat, does not let the heat of external environment and the cavity in the refrigerator box carry out the heat transfer, prevents scattering and disappearing of refrigerator box interior air conditioning, reduces the power consumption.

In this embodiment, a temperature sensor 26 for detecting the temperature of the internal space of the refrigerator body 23 is disposed on the refrigerator body 23, a temperature probe 261 extending into the internal space of the refrigerator body 23 is disposed on the temperature sensor 26, an electrical socket 262 extending out of the heat insulating layer 25 is disposed on the temperature sensor 26, a avoiding hole C extending out of the electrical socket 262 is disposed on the heat insulating layer 25, and the temperature sensor 26 is electrically connected to the flow direction controller and the power supply assembly 5 through the electrical socket 262; the temperature sensor is electrically connected with the control panel through the electrical socket, when the temperature probe detects that the temperature in the refrigerator body is reduced to a specified temperature, the temperature sensor sends a signal, so that the control panel controls the flow direction controller to close the refrigerant output end connected with the connecting pipeline C, the continuous supply of the refrigerant to the condensation pipe is stopped, and the electricity consumption is saved; when the temperature probe detects that the temperature in the refrigerator body rises to the specified temperature, the temperature sensor sends a signal, so that the control panel controls the flow direction controller to open the refrigerant output end connected with the connecting pipeline C, the refrigerant is provided for the condensation pipe to carry out heat exchange on the cavity in the refrigerator body, the temperature in the refrigerator body is always maintained in a stable range, and the refrigeration efficiency of the refrigerator assembly is ensured.

In this embodiment, the casing 1 is provided with a temperature display screen 18 for a refrigerator, the temperature display screen 18 is electrically connected with the temperature sensor 26, and the temperature display screen 18 is used for displaying the temperature of the inner space of the refrigerator body 23; so that the user can detect the temperature of the inner space of the refrigerator body in real time.

In this embodiment, a power exchanging cavity 2 is arranged in the housing 1, a power supply circuit is arranged in the power exchanging cavity 2, the power supply assembly is located in the power exchanging cavity 2, the power supply assembly 5 includes a sliding device 53, a battery drawer 51 and a power supply battery 52, the power supply battery 52 is detachably connected in the battery drawer 51, the power supply circuit extends to the battery drawer 51 and is electrically connected with the power supply battery 52, the sliding device 53 is fixedly arranged in the power exchanging cavity 2, the battery drawer 51 is slidably connected in the power exchanging cavity 2 through the sliding device 53, and a drawer opening for the battery drawer 51 to enter and exit is formed in the housing 1; the outdoor air-conditioning and refrigerator all-in-one machine is characterized in that a replacement electric cavity is arranged in a shell, a power supply assembly and a power supply circuit are arranged in the replacement electric cavity, when the outdoor air-conditioning and refrigerator all-in-one machine is used, a power supply battery is arranged in a battery drawer, the power supply circuit is connected with the power supply battery, and then the battery drawer is pushed into the replacement electric cavity through a sliding device, so that the power supply battery supplies power for functional assemblies in the shell; the user can be equipped with a plurality of power supply batteries, and when the power supply battery electric quantity is used up or breaks down, only need take out the battery drawer from trading the electric cavity, can realize the change or the maintenance to power supply battery, make outdoor air conditioner refrigerator all-in-one can last work in long-term outdoor activities to improve the rate of utilization of outdoor air conditioner refrigerator all-in-one, simple structure, convenient operation.

In this embodiment, the portion of the power supply circuit extending to the battery drawer is fixed on the body of the battery drawer by a fixing member, which may be a strap or the like, and is not described herein again.

In this embodiment, the sliding device 53 includes a fixed plate 531, a sliding plate 532 and balls 533, the mounting portion 21 is disposed in the power exchanging cavity 2, the fixed plate 531 is fixed on the mounting portion 21, the sliding plate 532 is fixed on an outer wall of the battery drawer 51, the sliding plate 532 is slidably connected in the fixed plate 531 through the balls 533, both the fixed plate 531 and the sliding plate 532 are slot bodies having openings at both ends, outer walls at both sides of the fixed plate 531 are bent inward to form a bent portion 534, outer walls at both sides of the sliding plate 532 are recessed inward to form a recessed portion 535, a sliding rail 536 is formed between the bent portion 534 and the recessed portion 535, and the balls 533 are located in the sliding rail 536; in order to ensure that the battery drawer is more smoothly and labor-saving to operate when being pulled out and pushed in, the sliding device adopts a ball sliding rail as a sliding design, so that the purpose of sliding can be achieved, the friction is reduced, meanwhile, the battery drawer has stronger bearing capacity, and the service life of the battery drawer is prolonged; a fixed plate in the sliding device is fixed on an installation part in the battery replacing cavity, a sliding plate in the sliding device is fixed on the outer wall of the battery drawer, the battery drawer is pulled, and the sliding plate moves along the sliding rail under the sliding action of the balls, so that the battery drawer is opened and closed on the drawer opening.

In this embodiment, a door body 54 is arranged on the battery drawer 51, the shape of the door body 54 is matched with the shape of the drawer opening, the door body 54 can cover the drawer opening of the casing 1, and a handle 55 for pulling is arranged on the door body 54; the door body on the battery drawer covers the drawer opening, so that the battery drawer and the shell are integrated and more attractive, and the handle is arranged so that a user can open and close the battery drawer on the drawer opening more easily.

In this embodiment, one end of the power supply battery 52 is provided with a switch button 521 and a discharging interface 522, and the other end of the power supply battery 52 is provided with a charging socket 524; the discharging interface is two USB discharging interfaces and a 12V discharging output interface, so that the power supply battery can supply power for different devices, and the replaced power supply battery can be charged by adopting a charging line or a charging seat to be connected with a charging socket.

In this embodiment, the housing 1 is further provided with a charging port communicated with the battery replacing cavity 2, the charging port faces one end of the power supply battery 52 having the charging socket 524, the charging port is detachably connected with the cover plate 56, and the battery drawer 51 is provided with an avoiding port 511 corresponding to the charging port; the user can be with the apron from the mouthful dismantlement that charges, then is connected with charging socket through external charging wire to the realization charges to supply battery, need not to dismantle supply battery from the battery drawer and come out, reduces the user and removes supply battery's labour.

In this embodiment, a charging plug a525 is further disposed on one end of the power supply battery 52 having the charging socket 524; the user can also pull out the charging plug A on the power supply battery and insert the charging plug A into the external charging seat, thereby realizing the charging of the power supply battery, and leading the user to charge the power supply battery when the user can not find the charging wire or the charging seat which can be connected with the charging socket.

In this embodiment, a heat dissipation fan B523 is further disposed at one end of the power supply battery 52 having the charging socket 524, an air outlet of the heat dissipation fan B523 is directly opposite to the avoiding opening 511, and hot air blown out by the heat dissipation fan B523 sequentially passes through the avoiding opening 511 and the heat dissipation air outlet 11 and is blown out of the housing 1; the safety accidents such as explosion and the like caused by overheating of the power supply battery are prevented.

In this embodiment, the outer side of the power supply battery 52 is covered with a stainless steel protective shell; the stainless steel protective housing helps the power supply battery to dissipate heat and plays a role in protecting the power supply battery.

In this embodiment, the housing 1 is further provided with a charging plug B57 electrically connected to the power supply circuit, a winding roll is further disposed between the charging plug B57 and the power supply circuit, a power cord is movably disposed in the winding roll, one end of the power cord is electrically connected to the charging plug B57, and the other end of the power cord is electrically connected to the power supply circuit; when a user is in an environment with an external power supply, the user can pull out the charging plug B on the shell, insert the charging plug B into an external charging seat to charge the power supply battery and supply power to the outdoor air-conditioning and refrigerator integrated machine, so that the electric quantity of the power supply battery is saved; the customer can select suitable charging mode to charge the power supply battery according to actual demand, or select suitable power supply mode to realize the power supply to outdoor air conditioner refrigerator all-in-one.

In this embodiment, a walking assembly 6 is arranged at the bottom of the housing 1, a handle mounting groove 7 is arranged on the housing 1, and a lifting handle 71 is rotatably connected to the handle mounting groove 7; when the outdoor air conditioner and refrigerator all-in-one machine needs to be moved, a user only needs to pull the lifting handle, the outdoor air conditioner and refrigerator all-in-one machine can be moved through the walking assembly, the whole outdoor air conditioner and refrigerator all-in-one machine does not need to be moved, the structure is simple, the operation is convenient, the labor intensity of the user is reduced, and the user experience is improved.

The technical contents of the present invention are further illustrated by the examples only for the convenience of the reader, but the embodiments of the present invention are not limited thereto, and any technical extension or re-creation based on the present invention is protected by the present invention. The protection scope of the invention is subject to the claims.

Claims (10)

1. The utility model provides an outdoor air conditioner refrigerator all-in-one, includes casing (1), its characterized in that: the refrigerator is characterized in that a refrigerator assembly (2) used for refrigerating articles is arranged in the shell (1), an air conditioner assembly (3) used for blowing air to reduce the ambient temperature, a refrigerating assembly (4) used for respectively providing refrigerants for the refrigerator assembly (2) and the air conditioner assembly (3), and a power supply assembly (5) used for respectively supplying power for the refrigerator assembly (2), the air conditioner assembly (3) and the refrigerating assembly (4).

2. The outdoor air conditioner and refrigerator integrated machine of claim 1, wherein: refrigeration subassembly (4) are including compressor (41) and condenser (42) that connect gradually, be connected with connecting tube B on the refrigerant output of condenser (42), be equipped with refrigerant flow direction control component on the connecting tube B, refrigerant flow direction control component is connected with refrigerator subassembly (2) and air conditioner subassembly (3) respectively, refrigerant flow direction control component is used for guiding the refrigerant that connecting tube B carried to refrigerator subassembly (2) and/or air conditioner subassembly (3).

3. An outdoor air conditioner and refrigerator integrated machine according to claim 2, characterized in that: refrigerant flow direction control component is including the flow direction controller and connecting tube C (21) that connect gradually, the input of flow direction controller is connected with connecting tube B, be equipped with connecting tube A between compressor (41) and condenser (42), connecting tube C (21) are located between one of them refrigerant output of flow direction controller and refrigerator subassembly (2), be equipped with connecting tube D (22) between refrigerator subassembly (2) and compressor (41), connecting tube A, condenser (42), connecting tube B, flow direction controller, connecting tube C (21), refrigerator subassembly (2), connecting tube D (22) communicate in proper order and form refrigerator circulation refrigeration circuit.

4. An outdoor air conditioner and refrigerator integrated machine according to claim 3, characterized in that: refrigerant flow direction control component still includes connecting tube E (31), between another refrigerant output of flow direction controller and air conditioner subassembly (3) is located in connecting tube E (31), be equipped with connecting tube F (32) between air conditioner subassembly (3) and compressor (41), connecting tube A, condenser (42), connecting tube B, flow direction controller, connecting tube E (31), air conditioner subassembly (3), connecting tube F (32) communicate in proper order and form the air conditioner circulation refrigeration circuit.

5. The outdoor air conditioner and refrigerator integrated machine of claim 4, wherein: the air conditioner component (3) comprises an air conditioner evaporator (33), an air conditioner fan (34) and an air suction channel (35), the air suction channel (35) is arranged on the inner side wall of the shell (1), an air inlet A (351) for allowing outside air to enter the air suction channel (35) is formed in the air suction channel (35), an air inlet notch (12) corresponding to the air inlet A (351) is formed in the shell (1), and the air inlet notch (12) is communicated with the air inlet A (351); the air conditioner evaporator (33) is arranged in the air suction channel (35), the air conditioner evaporator (33) is used for carrying out heat exchange on air entering the air suction channel (35) from the air inlet A (351), the connecting pipeline E (31) is connected with the refrigerant input end of the air conditioner evaporator (33), and the connecting pipeline F is connected with the refrigerant output end of the air conditioner evaporator (33); be equipped with on the top of induced draft passageway (35) and supply air-conditioning fan (34) air inlet B to inhale inlet scoop (352) through air-conditioning evaporator (33) heat transfer back air, air-conditioning fan (34) air inlet B and inlet scoop (352) sealing connection, still be equipped with air-out notch (13) corresponding with air-conditioning fan (34)'s air outlet on casing (1), the air outlet and air-out notch (13) sealing connection of air-conditioning fan (34), it is connected with air-sweeping plate (14) to rotate on air-out notch (13), air-sweeping plate (14) are used for adjusting the flow direction of the air current that air-conditioning fan (34) air outlet blown out.

6. An outdoor air conditioner and refrigerator integrated machine according to claim 5, characterized in that: a water receiving tray (36) is arranged below the air-conditioning evaporator (33), the water receiving tray (36) is used for receiving condensed water generated by the air-conditioning evaporator (33), the air-conditioning evaporator (33) and the water pan (36) are both arranged in the air suction channel (35) with the rear parts inclined downwards, the bottom of the water receiving tray (36) gradually descends from one side of the bottom of the water receiving tray (36) to the other side of the bottom of the water receiving tray in the length direction to form a slope, a drain pipe (361) extending outwards is arranged on one side of the lowest area at the bottom of the water pan (36), a water outlet (15) is arranged on the shell (1), the water outlet pipe (361) extends to the water outlet (15) and is communicated with the water outlet, and an air inlet C (362) for leading air sucked by the air inlet A (351) to an air-conditioning evaporator (33) is arranged in the middle area of the bottom of the water receiving tray (36).

7. An outdoor air conditioner and refrigerator integrated machine according to claim 5, characterized in that: the air conditioner is characterized in that the shell (1) is provided with a control panel (16), and the control panel (16) is electrically connected with the air conditioner fan (34), the compressor (41), the flow direction controller and the power supply assembly (5).

8. An outdoor air conditioner and refrigerator integrated machine according to claim 3, characterized in that: the refrigerator component (2) comprises a refrigerator box body (23) and a condensation pipe (24), the refrigerator box body (23) is of a barrel-shaped structure with an upward opening, a shell opening corresponding to a box opening of the refrigerator box body (23) is formed in the top of the shell (1), the refrigerator box body (23) is hermetically connected with the top of the shell (1) at the shell opening, a refrigerator box cover (17) used for closing the shell opening is rotatably connected to the top of the shell (1), the condensation pipe (24) is wound on the outer side wall of the refrigerator box body (23), the condensation pipe (24) is used for performing heat exchange and refrigeration on the space in the refrigerator box body (23), one end of the condensation pipe (24) is communicated with a connecting pipeline C (21), the other end of the condensation pipe (24) is communicated with a connecting pipeline D (22), and an insulating layer (25) is coated on the outer side wall of the refrigerator box body (23), the condensation pipe (24) is positioned between the refrigerator body (23) and the heat-insulating layer (25).

9. An outdoor air conditioner and refrigerator integrated machine according to claim 8, characterized in that: be equipped with on refrigerator box (23) and be used for detecting temperature-sensing ware (26) of asking of refrigerator box (23) inner space temperature, be equipped with on temperature-sensing ware (26) and extend into temperature probe (261) of refrigerator box (23) inner space, be equipped with on temperature-sensing ware (26) and extend the outer electric property socket (262) of heat preservation (25), be equipped with the hole C of dodging that stretches out of power supply property socket (262) on heat preservation (25), temperature-sensing ware (26) respectively with flow direction controller and power supply unit (5) electric connection through electric property socket (262).

10. An outdoor air conditioner and refrigerator integrated machine according to claim 9, characterized in that: be equipped with on casing (1) and be used for refrigerator temperature display screen (18), refrigerator temperature display screen (18) and temperature-sensing ware (26) electric connection, refrigerator temperature display screen (18) are used for showing the inner space temperature of refrigerator box (23).

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