CN102848998A - Vehicular air conditioning system - Google Patents
Vehicular air conditioning system Download PDFInfo
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- CN102848998A CN102848998A CN2011101811151A CN201110181115A CN102848998A CN 102848998 A CN102848998 A CN 102848998A CN 2011101811151 A CN2011101811151 A CN 2011101811151A CN 201110181115 A CN201110181115 A CN 201110181115A CN 102848998 A CN102848998 A CN 102848998A
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- energy
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- air conditioner
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- battery heap
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/60—Other road transportation technologies with climate change mitigation effect
- Y02T10/72—Electric energy management in electromobility
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Abstract
The invention provides a vehicular air conditioning system. Energy is supplied by solar energy, wind energy and energy storage cell stacks high in overload capacity, so that energy consumption can be reduced, environmental pollution pressure is reduced, and the environment influence by greenhouse effect is lowered. The vehicular air conditioning system comprises an energy device, an energy storage device, a solar-wind hybrid controller, an inverter and an electric air conditioner. The energy device is used for powering the electric air conditioner. Energy from the energy device is stored in the energy storage device. The energy storage device comprises a solar device and a wind energy device. The solar-wind hybrid controller is used for setting protection parameters. The solar device and the wind energy device are controlled and managed by the solar-wind hybrid controller and charge the energy storage cell stacks, and electric energy is stored in the energy storage cell stacks. The inverter is used for bilateral conversion between alternating current and direct current. The inverter is connected between the energy storage cell stacks and the electric air conditioner. When the electric air conditioner needs power, the energy storage cell sacks transmit the stored electric energy to the electric air conditioner through the inverter.
Description
Technical field
The invention belongs to the a/c system technical field that transportation means uses, relate in particular to a kind of mounted air conditioner system that utilizes clean energy resource that power supply is provided.
Background technology
At present, technology trends from air-conditioning, frequency conversion, energy-saving and environmental protection three large technology are the technical development main flow under industry environment, and the energy-saving and emission-reduction policy is carried out by country, and the clean energy resourcies such as earth source heat pump, solar power, wind energy are all developing on a large scale.In the prior art, on-board air conditioner is the power with explosive motor, powers to air-conditioning compressor by transformation of energy, keeps the circulation of refrigerant in refrigeration system, realizes interchange of heat, by ducting system to lowering the temperature in the car.But this air conditioning energy consumption is large, noise is large.From present Air-conditioning Development trend, the characteristics such as compact conformation, energy-efficient and little low noise of shaking are the targets that the air-conditioning manufacturing technology is constantly pursued.In order to reduce energy consumption, environmental contamination reduction pressure reduces green-house effect, and utilizing renewable and clean energy resource is the research direction of this area for interior environment system provides the a/c system of power.
Summary of the invention
The object of the present invention is to provide a kind of mounted air conditioner system, adopt solar power, wind energy to provide the energy in conjunction with the strong energy-storage battery heap of overload capacity, capable of reducing energy consumption, environmental contamination reduction pressure reduces green-house effect to the impact of environment.
The present invention is achieved through the following technical solutions:
Mounted air conditioner system includes energy source device, closed-center system and electric air-conditioning device; Described energy source device is used to the electric air-conditioning device that the energy is provided, and the energy storage of described energy source device is in closed-center system; Wherein, described energy source device includes solar energy equipment and wind energy plant;
Described solar energy equipment be used for to be collected solar energy, and is the Conversion of Energy that comprises in the sunshine electric energy by opto-electronic conversion;
The mechanical energy that described wind energy plant is used for wind-force is comprised is converted to electric energy;
Described closed-center system is a kind of energy-storage battery heap, and described energy-storage battery heap is used for store electrical energy;
Described mounted air conditioner system includes: wind/light complementation controller, described wind/light complementation controller is set Protection parameters, described solar energy equipment and wind energy plant carry out control and management by wind/light complementation controller and energy-storage battery heap are charged, electrical power storage in the energy-storage battery heap;
Described mounted air conditioner system includes: inverter, and described inverter is used for the bi-directional conversion between realization alternating current and the direct current (DC); Described inverter is connected between energy-storage battery heap and the electric air-conditioning device; When the electric air-conditioning device needs electricity consumption, the energy-storage battery heap through inverter the delivery of electrical energy that stores to the electric air-conditioning device.
Preferably, described energy source device includes the brake energy source recovery apparatus, and described brake energy source recovery apparatus is connected with the energy-storage battery heap by controller; The brake energy source recovery apparatus carries out control and management by controller and the energy-storage battery heap is charged.
Preferably, described inverter is connected with the Automobile drive power device, and when the electric air-conditioning device did not need electricity consumption, the energy-storage battery heap was powered to the Automobile drive power device through quick switching of the automatic switching control equipment of inverter.
Beneficial effect of the present invention is as follows:
Mounted air conditioner system of the present invention, because energy source device includes solar energy equipment and wind energy plant, closed-center system is a kind of energy-storage battery heap; The energy source recovery apparatus that brakes simultaneously carries out control and management by controller and the energy-storage battery heap is charged; Adopt solar power, wind energy and recovery brake energy, utilize renewable and clean energy resource to carry out energy storage and the energy is provided in conjunction with the strong energy-storage battery heap of overload capacity.Have following advantage:
A, saving energy consumption, over-the-road expense is low, energy-conserving and environment-protective.
B, utilize wind energy, solar power, brake energy to reclaim, utilize renewable and clean energy resource.
C, do not use fuel, no-rotary part, operation noiselessness.
D, intelligence control system, conversion effect is high.
E, modular construction, loading and unloading, maintenance are conveniently.
F, unit adopt intelligent automatic control, and have adopted efficient protection noise countermeasure, operate steadily.
Description of drawings
Fig. 1 is the structural representation block diagram of mounted air conditioner system of the present invention;
Fig. 2 is the power supply the principle schematic diagram of mounted air conditioner system of the present invention;
Fig. 3 is the wind/light complementation controller circuit theory schematic diagram of mounted air conditioner system of the present invention;
Fig. 4 is the inverter circuit principle schematic of mounted air conditioner system of the present invention;
Fig. 5 is the electric air-conditioning apparatus structure schematic diagram of mounted air conditioner system of the present invention;
Fig. 6 is the structural representation of mounted air conditioner system of the present invention.
Description of reference numerals:
1; solar energy equipment, 2; wind energy plant, 3; wind/light complementation controller; 4; the energy-storage battery heap, 5; inverter, 6; the electric air-conditioning device; 7; the Automobile drive power device, 8; the brake energy source recovery apparatus, 9; controller; 10; the DC/DC DC voltage-stablized source apparatus; 11; load, 30; CPU, 31; the DC-DC DC converter; 51; the direct supply input circuit; 52; detect control circuit, 53; protective circuit, 54; inversion module; 55; the output AC power source circuit; 61; compressor, 62; the power protection controller, 63; air-exhaust fan; 64; H Exch, 65; housing.
The specific embodiment
Ask for an interview Fig. 1, the invention discloses a kind of mounted air conditioner system, include energy source device, closed-center system and electric air-conditioning device 6; Described energy source device is used to electric air-conditioning device 6 that the energy is provided, and the energy storage of described energy source device is in closed-center system; Wherein, described energy source device includes solar energy equipment 1 and wind energy plant 2;
Described solar energy equipment 1 is used for collecting solar energy, and is the Conversion of Energy that comprises in the sunshine electric energy by opto-electronic conversion;
The mechanical energy that described wind energy plant 2 is used for wind-force is comprised is converted to electric energy;
Described closed-center system is a kind of energy-storage battery heap 4, and described energy-storage battery heap is used for store electrical energy;
Described mounted air conditioner system includes: wind/light complementation controller 3, described wind/light complementation controller 3 is set Protection parameters, described solar energy equipment 1 and wind energy plant 2 carry out control and management by wind/light complementation controller 3 and the energy-storage battery heap are charged, and electrical power storage is piled 4 li at energy-storage battery;
Described mounted air conditioner system includes: inverter 5, the bi-directional conversion that described inverter 5 is used between realization alternating current and the direct current (DC); Described inverter 5 is connected between energy-storage battery heap 4 and the electric air-conditioning device 6; When electric air-conditioning device 6 needs electricity consumption, energy-storage battery heap 4 through inverter 5 the delivery of electrical energies that store to electric air-conditioning device 6.
Preferably, described energy source device includes brake energy source recovery apparatus 8, and described brake energy source recovery apparatus 8 is connected with energy-storage battery heap 4 by controller 9; Brake energy source recovery apparatus 8 carries out control and management by controller 9 and energy-storage battery heap 4 is charged.
Preferably, described inverter 5 is connected with Automobile drive power device 7, and when electric air-conditioning device 6 did not need electricity consumption, energy-storage battery heap 4 switched to 7 power supplies of Automobile drive power device fast through the automatic switching control equipment of inverter 5.
Such as Fig. 2, described solar energy equipment 1 adopts the mono-crystalline silicon solar system, includes solar panel and photovoltaic power generation apparatus; Energy-storage battery heap 4 adopts the lithium titanate battery heap; Energy-storage battery heap 4 is connected with load 11 by DC/DC DC voltage-stablized source apparatus 10; Photovoltaic power generation apparatus, wind energy plant 2, are powered to electric air-conditioning device 6 through inverter 5 to the charging of lithium titanate battery heap by wind/light complementation controller 3; Simultaneously, the lithium titanate battery heap gives load 11 power supplies through DC/DC DC voltage-stablized source apparatus 10.
Such as Fig. 3, wind/light complementation controller 3 includes: CPU30 and DC-DC DC converter 31, and solar energy equipment 1 or wind energy plant 2 are powered to 4 chargings of energy-storage battery heap or to load 11 in the control protection domain that CPU30 imposes a condition by DC-DC DC converter 31; Described CPU30 is by the first driving circuit and 31 electrical connections of DC-DC DC converter, and DC-DC DC converter 31 is provided with the interface circuit that connects CPU30; Described CPU30 is by the second driving circuit and 4 electrical connections of energy-storage battery heap; Wind/light complementation controller 3 includes temperature controller, and described temperature controller sends temperature signal to the I/O interface of CPU30.
Wind/light complementation controller 3 includes for the keyboard of input control parameter and is used for the display system state and the LCD display of data; Wind/light complementation controller 3 includes be used to the warning circuit that gives the alarm; Described keyboard, LCD display and warning circuit all are electrically connected with CPU30.
Such as Fig. 4, inverter includes direct supply input circuit 51, detects control circuit 52, protective circuit 53, inversion module 54 and output AC power source circuit 55; Detect control circuit 52 and receive the feedback signal of output AC power source circuit 55, and send 53 work of instruction control protection electric circuit, protective circuit 53 drives inversion module 54 final output AC power source electricity supply and use equipments and uses in range of control.
Such as Fig. 5, described electric air-conditioning device includes compressor 61, power protection controller 62, air-exhaust fan 63, H Exch 64 and housing 65, described H Exch 64 adopts cellular structure, compressor 61 adopts the high-efficiency screw-type compressor, adopt circulating line to connect between compressor 61 and the H Exch 64, refrigerant R134a is positioned at compressor 61, H Exch 64 and circulating line inside and circulates; Air-exhaust fan 63 and H Exch 64 are installed on the housing 65, and compressor 61 and power protection controller 62 are arranged in housing 65 inner chambers.
The compressor of electric air-conditioning device adopts the high-efficiency screw structure to keep the circulation of refrigerant in refrigeration system, joint with electrokinetic cell, clean energy resource as direct power resources, a, employing environmental protection refrigerant R134a, Energy Efficiency Ratio (EER) is up to 3.35.
Such as Fig. 6, be a kind of better structure embodiment of mounted air conditioner system of the present invention.
Brake energy source recovery apparatus 8 includes the feed electrical generator, and the output shaft of feed electrical generator connects a change-speed box; Brake energy source recovery apparatus 8, energy-storage battery heap 4 and inverter 5 all are arranged on interior.
Electric air-conditioning device 6, solar energy equipment 1 and wind energy plant 2 are installed in car body top, and solar energy equipment 1 includes the polylith solar panel, all cover the end face in compartment.
Above-mentioned listed specific implementation is nonrestrictive, to one skilled in the art, is not departing from the scope of the invention, and the various modifications and variations of carrying out all belong to protection scope of the present invention.
Claims (10)
1. mounted air conditioner system includes energy source device, closed-center system and electric air-conditioning device (6); Described energy source device is used to electric air-conditioning device (6) that the energy is provided, and the energy storage of described energy source device is in closed-center system; It is characterized in that:
Described energy source device includes solar energy equipment (1) and wind energy plant (2);
Described solar energy equipment (1) be used for to be collected solar energy, and is the Conversion of Energy that comprises in the sunshine electric energy by opto-electronic conversion;
The mechanical energy that described wind energy plant (2) is used for wind-force is comprised is converted to electric energy;
Described closed-center system is a kind of energy-storage battery heap (4), and described energy-storage battery heap is used for store electrical energy;
Described mounted air conditioner system includes: wind/light complementation controller (3), described wind/light complementation controller (3) is set Protection parameters, described solar energy equipment (1) and wind energy plant (2) carry out control and management by wind/light complementation controller (3) and the energy-storage battery heap is charged, and be inner at energy-storage battery heap (4) electrical power storage;
Described mounted air conditioner system includes: inverter (5), and described inverter (5) is used for the bi-directional conversion between realization alternating current and the direct current (DC); Described inverter (5) is connected between energy-storage battery heap (4) and the electric air-conditioning device (6); When electric air-conditioning device (6) needs electricity consumption, energy-storage battery heap (4) through inverter (5) the delivery of electrical energy that stores to electric air-conditioning device (6).
2. mounted air conditioner system as claimed in claim 1 is characterized in that: described energy source device includes brake energy source recovery apparatus (8), and described brake energy source recovery apparatus (8) is piled (4) by controller (9) and energy-storage battery and is connected; Brake energy source recovery apparatus (8) carries out control and management by controller (9) and energy-storage battery heap (4) is charged.
3. mounted air conditioner system as claimed in claim 1 or 2, it is characterized in that: described inverter (5) is connected with Automobile drive power device (7), when electric air-conditioning device (6) when not needing electricity consumption, energy-storage battery heap (4) switches fast through the automatic switching control equipment of inverter (5) powers to Automobile drive power device (7).
4. mounted air conditioner system as claimed in claim 3 is characterized in that: described solar energy equipment (1) adopts the mono-crystalline silicon solar system, includes solar panel and photovoltaic power generation apparatus; Energy-storage battery heap (4) adopts the lithium titanate battery heap; Energy-storage battery heap (4) is connected with load (11) by DC/DC DC voltage-stablized source apparatus (10); Photovoltaic power generation apparatus, wind energy plant (2), are powered to electric air-conditioning device (6) through inverter (5) to the charging of lithium titanate battery heap by wind/light complementation controller (3); Simultaneously, the lithium titanate battery heap is given load (11) power supply through DC/DC DC voltage-stablized source apparatus (10).
5. mounted air conditioner system as claimed in claim 3, it is characterized in that: described wind/light complementation controller (3) includes: CPU (30) and DC-DC DC converter (31), and solar energy equipment (1) or wind energy plant (2) are powered to energy-storage battery heap (4) charging or to load (11) in the control protection domain that CPU (30) imposes a condition by DC-DC DC converter (31); Described CPU (30) is by the first driving circuit and DC-DC DC converter (31) electrical connection, and DC-DC DC converter (31) is provided with the interface circuit that connects CPU (30); Described CPU (30) is by the second driving circuit and energy-storage battery heap (4) electrical connection; Wind/light complementation controller (3) includes temperature controller, and described temperature controller sends temperature signal to the I/O interface of CPU (30).
6. mounted air conditioner system as claimed in claim 5 is characterized in that: described wind/light complementation controller (3) includes for the keyboard of input control parameter and is used for the LCD display of display system state and data; Wind/light complementation controller (3) includes be used to the warning circuit that gives the alarm; Described keyboard, LCD display and warning circuit all are electrically connected with CPU (30).
7. mounted air conditioner system as claimed in claim 3 is characterized in that: described inverter includes direct supply input circuit (51), detects control circuit (52), protective circuit (53), inversion module (54) and output AC power source circuit (55); Detect the feedback signal that control circuit (52) receives output AC power source circuit (55); and send instruction control protection electric circuit (53) work, protective circuit (53) drives the final output AC power source electricity supply and use equipment of inversion module (54) and uses in range of control.
8. mounted air conditioner system as claimed in claim 3, it is characterized in that: described electric air-conditioning device includes compressor (61), power protection controller (62), air-exhaust fan (63), H Exch (64) and housing (65), described H Exch (64) adopts cellular structure, compressor (61) adopts the high-efficiency screw-type compressor, adopt circulating line to connect between compressor (61) and the H Exch (64), refrigerant R134a is positioned at compressor (61), circulate in H Exch (64) and circulating line inside; Air-exhaust fan (63) and H Exch (64) are installed on the housing (65), and compressor (61) and power protection controller (62) are arranged in housing 65) inner chamber.
9. mounted air conditioner system as claimed in claim 8, it is characterized in that: described brake energy source recovery apparatus (8) includes the feed electrical generator, and the output shaft of feed electrical generator connects a change-speed box; Brake energy source recovery apparatus (8), energy-storage battery heap (4) and inverter (5) all are arranged on interior.
10. mounted air conditioner system as claimed in claim 8, it is characterized in that: described electric air-conditioning device (6), solar energy equipment (1) and wind energy plant (2) are installed in car body top, solar energy equipment (1) includes the polylith solar panel, all covers the end face in compartment.
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CN2011101811151A CN102848998A (en) | 2011-06-30 | 2011-06-30 | Vehicular air conditioning system |
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CN2011101811151A CN102848998A (en) | 2011-06-30 | 2011-06-30 | Vehicular air conditioning system |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103545904A (en) * | 2013-11-04 | 2014-01-29 | 河北驹王专用汽车制造有限公司 | High-power vehicle-mounted power supply system |
CN103950417A (en) * | 2014-05-15 | 2014-07-30 | 天津永明新能源科技有限公司 | Wind-light complementary power generation device special for automobile |
CN107650733A (en) * | 2017-11-14 | 2018-02-02 | 中车株洲电力机车有限公司 | A kind of vehicle traction electric machine emergency power system and traction electric machine power supply unit |
CN108482066A (en) * | 2018-05-18 | 2018-09-04 | 华北科技学院 | A kind of monitoring of intelligent vehicle indoor environment and cooling system |
CN111271862A (en) * | 2020-03-18 | 2020-06-12 | 苏州恒境环保科技有限公司 | Fresh air ventilation opening with power storage and screen display functions and energy supply method thereof |
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CA2524202A1 (en) * | 2003-05-05 | 2004-11-18 | Carrier Corporation | Evaporator section for a modular bus air conditioner |
TWM338775U (en) * | 2007-12-31 | 2008-08-21 | Univ Far East | Vehicle heat dissipation apparatus powered by solar energy and wind energy |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103545904A (en) * | 2013-11-04 | 2014-01-29 | 河北驹王专用汽车制造有限公司 | High-power vehicle-mounted power supply system |
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CN108482066A (en) * | 2018-05-18 | 2018-09-04 | 华北科技学院 | A kind of monitoring of intelligent vehicle indoor environment and cooling system |
CN111271862A (en) * | 2020-03-18 | 2020-06-12 | 苏州恒境环保科技有限公司 | Fresh air ventilation opening with power storage and screen display functions and energy supply method thereof |
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