CN203100036U - Solar air conditioning unit - Google Patents

Abstract

A solar air conditioning unit comprises a solar energy module, an air conditioning unit body and an air conditioning controller, wherein the air conditioning unit body receives a solar energy power source output by the solar energy module, and the air conditioning controller detects the output power of the solar energy module and controls power supply according to the detected output power. The solar energy module comprises a photovoltaic battery pack and a solar energy controller, wherein an output power source of the photovoltaic battery pack is converted into a power source matched with the requirement of load power supply by the solar energy controller. The air conditioning unit body comprises one or a plurality of air conditioning devices, wherein each air conditioning device comprises an outer shell and a refrigerating part which is contained and arranged in the outer shell, the refrigerating part comprises a compressor, and a flexible pipe is arranged to be connected at the connecting position of compressor pipelines or the connecting position between pipelines. According to the solar air conditioning unit, connecting pipelines of the compressor are arranged to be flexible pipe connection, a traditional connecting mode of camber hard pipe welding is replaced, noise generated by the vibration of metal hard pipes when the compressor works is reduced, noise of the compressor is reduced, and thus noise of the whole solar air conditioning unit is reduced.

Description

The solar airconditioning unit

Technical field

The utility model relates to a kind of air-conditioning equipment, particularly relates to a kind of solar airconditioning unit.

Background technology

Current air-conditioning uses more and more general, and particularly, oneself becomes the equipment of automobile indispensability on-board air conditioner, and it provides a comfortable environment by bus for the passenger.Existing air-conditioning all is subjected to the influence of condition of power supply or power supply environment, and particularly on-board air conditioner all is the adjusting that realizes air themperature in the car by the automobile engine consume fuel, therefore, can only be behind automobile starting, air-conditioning just can be started working, and the limitation of use is bigger, after air conditioning for automobiles is opened, the fuel consumption of automobile can increase, and the power performance of car engine can descend on the contrary.In case engine quits work, air temperature modification will stop in the car.For guaranteeing a home from home in the car, just must allow engine work without cessation.

Summary of the invention

Based on this, be necessary to provide a kind of solar airconditioning unit that can reduce noise.

A kind of solar airconditioning unit, comprise: solar energy module, be connected and receive the air-conditioning unit of the sun-generated electric power of this solar energy module output with described solar energy module, and be connected, detect the output power of power supply of solar energy module and control the air-conditioner controller of powering according to the power output of this detection with described air-conditioning unit and solar energy module; Described solar energy module comprises: the photovoltaic cell group is connected with described photovoltaic cell and converts the out-put supply of this photovoltaic cell group to the out-put supply of load power reguirements coupling controller for solar; Described controller for solar output sun-generated electric power is powered to the air-conditioning unit; Described air-conditioning unit comprises: one or more airconditions, and described aircondition comprises: shell, be located in the refrigerating part in the described shell; Described refrigerating part comprises: compressor, the junction of the pipeline of described compressor or the junction between the pipeline are provided with flexible pipe and connect.

In a preferred embodiment, the under-chassis of described compressor is connected with resilient cushion member.

In a preferred embodiment, also comprise: be connected, be subjected to this air-conditioner controller to control and described air-conditioning unit is carried out the built-in electric energy storage device of supplementary power according to the power output of described photovoltaic cell group with described control air-conditioner controller.

In a preferred embodiment, also comprise the external power supply that is connected, is subjected to the control of this air-conditioner controller with described control device and described air-conditioning unit is carried out supplementary power according to the power output of described photovoltaic cell group.

In a preferred embodiment, described external power supply comprises: be connected with described control device and direct the power supply to the external electrical storage device of described air-conditioning unit.

In a preferred embodiment, described external power supply comprises: be connected with described built-in electrical storage device and power by this built-in electrical storage device and insert Switching Power Supply to the civil power of described air-conditioning unit.

In a preferred embodiment, the output of described Switching Power Supply is provided with the diode of unidirectional conducting.

In a preferred embodiment, described shell comprises: outer cover body, and the front panel of fixedlying connected with outer cover body; Outer cover body is bent to form and holds cavity volume; Described outer cover body comprises: two side that is bent to form continuously by sheet metal component and roof, and the base plate of fixedlying connected with the two side.

In a preferred embodiment, described front panel is provided with air inlet and air outlet, and described air inlet is arranged at front end face one side of described front panel, and described air outlet is arranged at the relative opposite side of front end face of described front panel; Described two side and roof are provided with louvre.

In a preferred embodiment, described air-conditioner controller comprises: master controller and sub-controller, described sub-controller is arranged in the described aircondition, described sub-controller comprises: air-conditioning control and regulation circuit, the power switch that is connected respectively with described air-conditioning control and regulation circuit, temperature-adjusting device, mode-changeover device, and the indicator lamp of the described air-conditioning unit duty of indication; The functional unit of described power switch, temperature-adjusting device, mode-changeover device is arranged on the shell; Described indicator lamp is arranged on the shell; The functional unit relative installation of described power switch, temperature-adjusting device, mode-changeover device is arranged on the air outlet below; The relative air outlet setting of described compressor; Louvre on the described roof and described air inlet relative set.

In a preferred embodiment, described evaporimeter is located in the described shell and relative being installed in the indoor end with indoor fan; Described compressor, condenser, outdoor fan, and motor be installed in the described shell and be installed on relatively in the outdoor end.

In a preferred embodiment, described outdoor fan is an aerofoil fan; Described indoor fan is a centrifugal fan.

Above-mentioned solar airconditioning unit is set to the flexible pipe connection by the connecting pipe of compressor, substitute traditional camber hard tube welding connecting mode, the noise that the metallic hard tube vibration produces during with the reduction compressor operating, reducing the noise of compressor, thereby reduce the noise of whole solar airconditioning unit; It is that the air-conditioning unit is powered by solar energy by control photovoltaic cell group that solar panels and photovoltaic cell group are set simultaneously; energy-conservation, cleaning, environmental protection; and realize overload protection by the charging work of controller for solar monitoring and control photovoltaic cell group and to the photovoltaic cell group; control device control photovoltaic cell group carries out the electric power conveying and controls this photovoltaic cell group entering energy storage pattern or protected mode to this air-conditioning unit; real-time guard photovoltaic cell group thinks that the air-conditioning unit provides power supply stable and that continue.And above-mentioned solar airconditioning unit can use on vehicle, owing to adopt solar panels and the power supply of photovoltaic cell group, simultaneously the photovoltaic cell group is monitored control in real time, is not subjected to the influence of the speed of a motor vehicle during air-conditioning unit refrigeration; Be not subjected to effects of load; The influence of not climbed; Consumption of engine power not; Do not consume gasoline, the diesel oil energy; When stagnation of movement, also can freeze or heat; Alleviate weight of equipment, reduced the size of air-conditioning system, saved Master Cost, reduced cost; The solar airconditioning unit has good stable and continuation.

Description of drawings

Fig. 1 is the structural representation of the solar airconditioning unit of the utility model one embodiment;

Fig. 2 is the part-structure schematic diagram of the air-conditioning unit of the utility model one embodiment;

Fig. 3 is the part supply system schematic diagram of the air-conditioning unit of the utility model one embodiment;

Fig. 4 is another schematic diagram of part supply system of the air-conditioning unit of the utility model one embodiment.

The specific embodiment

Extremely shown in Figure 2 as Fig. 1, the solar airconditioning unit 100 of the utility model one embodiment, comprise: solar energy module 20, be connected and receive the air-conditioning unit 60 of the sun-generated electric power of these solar energy module 20 outputs with solar energy module 20, and be connected, detect the out-put supply power of solar energy module 20 and control the air-conditioner controller 80 of powering according to the out-put supply power of this detection with air-conditioning unit 60 and solar energy module 20.The air-conditioning unit 60 of present embodiment is provided with one or more airconditions 690 as required.

The solar energy module 20 of present embodiment comprises: photovoltaic cell group 40 is connected with photovoltaic cell group 40, and converts the out-put supply of this photovoltaic cell group 40 to the out-put supply of load power reguirements coupling controller for solar 22.

Controller for solar 22 controls convert photovoltaic cell group 40 out-put supplies with the out-put supply of air-conditioning unit 60 or aircondition 690 power reguirements coupling to power to air-conditioning unit 60.

Present embodiment, air-conditioner controller 80 comprises: master controller and branch machine controller.

40 pairs of these air-conditioning units 60 of controller for solar 22 these photovoltaic cell groups of control of present embodiment carry out electric power to be carried, and controls this photovoltaic cell group 40 simultaneously and enters energy storage pattern or protected mode.The controller for solar 22 of present embodiment is also monitored and is controlled 40 chargings of photovoltaic cell group and this photovoltaic cell group 40 is carried out overload protection.

During the aircondition 690 of present embodiment can be installed on window or wall or the car, the one side of this air-conditioning unit 60 be relative installation front end face facing in the indoor or car, another side be the rear end face or the back side be exposed at outdoor or car outside, carry out heat exchange in indoor and outdoor respectively by heat exchanger.

The aircondition 690 of present embodiment also can be installed on the roof or on the car wall, the one side of this aircondition 690 is that the front end face of relative installation is interior facing to car, another side is that the rear end face or the back side are exposed at outside the car, carries out heat exchange respectively by heat exchanger inside and outside car.

The air-conditioning unit 60 of the solar airconditioning unit 100 of present embodiment is divided into indoor end and outdoor end according to installation site and effect difference.

The aircondition 690 of present embodiment comprises: shell 62, be located at the refrigerating part 600 in the shell 62.

The branch machine controller of present embodiment can be arranged in the aircondition, and is connected the control refrigerating part with refrigerating part 600 and freezes.

As shown in Figure 2, the refrigerating part 600 of the aircondition of present embodiment comprises: compressor 64, evaporimeter 66, indoor fan 68, condenser 61, outdoor fan 63, motor 65.

The shell 62 of present embodiment forms cavity volume to be installed with miscellaneous parts such as compressor 64, evaporimeter 66, indoor fan 68, condenser 61, outdoor fan 63, motor 65.

Further, the junction of the pipeline of the compressor 64 of present embodiment or the junction between the pipeline are provided with flexible pipe 642 connections.Preferably, the junction of the pipeline of compressor 64 or the junction between the pipeline are set to the connection of straight line flexible pipe.

Further, the under-chassis of the compressor 64 of present embodiment is connected with resilient cushion member.

To shown in Figure 4, further, the solar airconditioning unit 100 of present embodiment also comprises as Fig. 3: is connected with air-conditioner controller 80 and controlled by this air-conditioner controller 80, air-conditioning unit 60 is carried out the built-in electric energy storage device 30 of supplementary power.Preferably, the built-in electric energy storage device 30 of present embodiment is connected with master controller, is powered by master controller control.

Built-in electric energy storage device 30 can be internal battery 302, also can be super capacitor or large bulk capacitance 304.

Further, the solar airconditioning unit 100 of present embodiment also comprises: be connected with air-conditioner controller 80 and be subjected to 80 controls of this air-conditioner controller air-conditioning unit 60 to be carried out the external power supply of supplementary power.

The external power supply of present embodiment comprises: be connected with air-conditioner controller 80, also directly power and give the external electrical storage device 32 of air-conditioning unit 60.

The external power supply of present embodiment also comprises: be connected with built-in electrical storage device 30, also insert Switching Power Supply 34 for the civil power of air-conditioning unit 60 by these built-in electrical storage device 30 power supplies.

Direct current refluence for anti-locking system damages Switching Power Supply 34, and the output of the Switching Power Supply of present embodiment is provided with the diode D1 of unidirectional conducting.

Further, the evaporimeter 66 of present embodiment and indoor fan 68 are installed in the indoor end.Further, the indoor fan of present embodiment adopts indoor centrifugal fan.

Compressor 64, condenser 61, outdoor fan 63, motor 65 are installed in the outdoor end.Preferred present embodiment, outdoor fan 63 adopts aerofoil fan.

Indoor fan 68 is driven by motor 65 and rotates, under the centrifugal action of indoor fan 68, the air of indoor relative higher temperature will enter into the inside of air-conditioning unit 60 by the air inlet 6222 on shell 62 front panels 622 that are positioned at indoor end, at first enter into the indoor of air-conditioning unit 60, when air is flowed through evaporimeter 66, to carry out heat exchange with the low-temp low-pressure refrigerant of evaporimeter 66 internal flows and reduce to lower temperature, enter the interior space once more by the air outlet on the front end face 6224 then, thereby the interior space is remained under the suitable temperature, and the refrigerant that flows out from evaporimeter 66 will flow back to the compressor 64 at last again.

Further, the aircondition 690 of present embodiment also comprises: be located in the warm part 602 of system in the shell 62.Divide machine controller to be connected with the warm part 602 of system simultaneously and warm part 602 work of the system of controlling.Refrigerating part 600 is utilized refrigerant to freeze the indoor cold air that provides is provided.The indoor heating installation that provides is provided the warm part 602 of system.The branch machine controller of present embodiment is arranged in the aircondition 690, comprising: air-conditioning control and regulation circuit, the power switch 601, temperature-adjusting device 603, time adjustment device, mode-changeover device 605, the indicator lamp 607 that are connected with air-conditioning control and regulation circuit.The functional unit of power switch 601, temperature-adjusting device 603, mode-changeover device 605 is arranged on the shell 62.Indicator lamp 607 is arranged on the shell 62 to indicate the duty of air-conditioning unit 60.

The shell 62 of present embodiment comprises: outer cover body 620, and the front panel 622 that is connected with outer cover body 620.Outer cover body 620 is bent to form cavity volume.Outer cover body 620 comprises: two side 621 that is bent to form continuously by sheet metal component and roof 623, and the base plate of fixedlying connected with sidewall 621.One end global formation of two side 621 and roof 623 goes out the syndeton that is complementary with front panel 622 to carry out mount with front panel 622.The other end of two side 621 and roof 623 is provided with otch conveniently to be bent to form the back blend stop with the junction of two side 621 and roof 623.One end of base plate also is bent to form the back blend stop near the direction of roof 623 relatively.The back blend stop of two side 621 bends relatively.Relative being bent to form of back blend stop of the back blend stop of roof 623 and base plate.The front end face of front panel 622 is set to convex arc shaped.

The functional unit of the power switch 601 of present embodiment, temperature-adjusting device 603, mode-changeover device 605 is arranged on the front panel 622 of shell 62.Also be provided with air inlet 6222 on the front panel 622, reach air outlet 6224.Air outlet 6224 is provided with blinds, can control to adjust circuit control by air-conditioning and rotate blinds to adjust air-out direction.In the present embodiment, the functional unit relative installation of power switch 601, temperature-adjusting device 603, mode-changeover device 605 is arranged on air outlet 6224 belows.

In the present embodiment, air inlet 6222 is oppositely arranged with air outlet 6224.Air inlet 6222 is arranged on a side of front panel, and air outlet 6224 is oppositely arranged on opposite side.

Also be provided with louvre 609 on the shell 62.In the present embodiment, preferred, louvre 609 is arranged on two side 621 and the roof 623, and relative installation is arranged at the outdoor end of shell 62.

In the present embodiment, louvre 609 and air inlet 6222 relative set on the roof 623.

The warm part 602 of the system of present embodiment comprises: water pump, be connected and provide for water pump pump motor, the heater of power with water pump.

The out-put supply of the photovoltaic cell group 40 of present embodiment converts the power supply that is complementary with air-conditioning unit 60 or aircondition 690 power reguirements to by controller for solar 22; And detect and control by master controller.

Because the dc power of photovoltaic cell group 40 arrays output is directly supplied with load as air-conditioning unit 60, this photovoltaic cell group 40 is at night and overcast and rainyly can provide necessary electrical power to loading as air-conditioning unit 60 by discharge.Because the voltage of load produces fluctuation through regular meeting, so controller for solar 22 is set with regulation voltage.When being used to freeze, the output of photovoltaic cell group 40 is electrically connected with the motor of the compressor 64 of air-conditioning unit 60 by air-conditioner controller 80, and the motor shaft of the motor of compressor 64 can be connected by internal tooth or external tooth mesh form with compressor shaft.

When air-conditioning unit 60 was used to heat, photovoltaic cell group 40 can be by air-conditioner controller 80 control output, being electrically connected with the pump motor and the heater of the warm part 602 of system of air-conditioning unit 60, warming up part 602 power supply is provided for making.

The pump motor of the warm part 602 of system relies on 40 power takings of environment-friendly type photovoltaic cell group, after circuit is connected, drive water pump by pump motor, through the heater heating, in heater, reach the indoor temperature inductor that is provided with respectively in addition, air after will heating by blower fan is blown into indoor, carries out temperature sense by being arranged on the indoor temperature inductor simultaneously, and the design temperature by temperature inductor is set is so that indoorly reach suitable temperature.

Set a temperature value to being arranged on indoor temperature inductor, by the perception of temperature inductor to indoor temperature, air-conditioner controller 80 controls are the pump motor and the heater of the warm part 602 of the electric power of photovoltaic cell group 40 system of flowing to, after the process heater heats cooling water, hot blast is blown into indoor by blower fan, by the thermal cycle of cooling water, the temperature in the conditioning chamber.

By temperature inductor being set to the perception of indoor temperature lift-off value, and to the perception of heater water temperature; the electric power that disconnects 40 pairs of pump motors of photovoltaic cell group and heater by air-conditioner controller 80 is carried, and enters by air-conditioner controller 80 control photovoltaic cell groups 40 simultaneously and stores power mode and protected mode.

The above embodiment has only expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model claim.Should be pointed out that for the person of ordinary skill of the art under the prerequisite that does not break away from the utility model design, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (10)

1. solar airconditioning unit, comprise: solar energy module, be connected and receive the air-conditioning unit of the sun-generated electric power of this solar energy module output with described solar energy module, and be connected, detect the output power of power supply of solar energy module and control the air-conditioner controller of powering according to the power output of this detection with described air-conditioning unit and solar energy module; Described solar energy module comprises: the photovoltaic cell group is connected with described photovoltaic cell and converts the out-put supply of this photovoltaic cell group to the out-put supply of load power reguirements coupling controller for solar; Described controller for solar output sun-generated electric power is powered to the air-conditioning unit; Described air-conditioning unit comprises: one or more airconditions, and described aircondition comprises: shell, be located in the refrigerating part in the described shell; Described refrigerating part comprises: compressor, the junction of the pipeline of described compressor or the junction between the pipeline are provided with flexible pipe and connect.

2. solar airconditioning unit according to claim 1 is characterized in that: the under-chassis of described compressor is connected with resilient cushion member.

3. solar airconditioning unit according to claim 1 is characterized in that: also comprise: be connected, be subjected to this air-conditioner controller to control and according to the power output of described photovoltaic cell group described air-conditioning unit is carried out the built-in electric energy storage device of supplementary power with described control air-conditioner controller.

4. solar airconditioning unit according to claim 3 is characterized in that: also comprise with described control device being connected, being subjected to this air-conditioner controller to control and according to the power output of described photovoltaic cell group described air-conditioning unit is carried out the external power supply of supplementary power.

5. solar airconditioning unit according to claim 4 is characterized in that: described external power supply comprises: be connected with described control device and direct the power supply to the external electrical storage device of described air-conditioning unit.

6. solar airconditioning unit according to claim 4 is characterized in that: described external power supply comprises: be connected with described built-in electrical storage device and power by this built-in electrical storage device and insert Switching Power Supply to the civil power of described air-conditioning unit.

7. solar airconditioning unit according to claim 6 is characterized in that: the output of described Switching Power Supply is provided with the diode of unidirectional conducting.

8. according to any described solar airconditioning unit of claim 1 to 7, it is characterized in that: described shell comprises: outer cover body, and the front panel of fixedlying connected with outer cover body; Outer cover body is bent to form and holds cavity volume; Described outer cover body comprises: two side that is bent to form continuously by sheet metal component and roof, and the base plate of fixedlying connected with the two side.

9. solar airconditioning unit according to claim 8, it is characterized in that: described front panel is provided with air inlet and air outlet, described air inlet is arranged at front end face one side of described front panel, and described air outlet is arranged at the relative opposite side of front end face of described front panel; Described two side and roof are provided with louvre.

10. solar airconditioning unit according to claim 9, it is characterized in that: described air-conditioner controller comprises: master controller and sub-controller, described sub-controller is arranged in the described aircondition, described sub-controller comprises: air-conditioning control and regulation circuit, the power switch that is connected respectively with described air-conditioning control and regulation circuit, temperature-adjusting device, mode-changeover device, and the indicator lamp of the described air-conditioning unit duty of indication; The functional unit of described power switch, temperature-adjusting device, mode-changeover device is arranged on the shell; Described indicator lamp is arranged on the shell; The functional unit relative installation of described power switch, temperature-adjusting device, mode-changeover device is arranged on the air outlet below; The relative air outlet setting of described compressor; Louvre on the described roof and described air inlet relative set.

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