Summary of the invention
In order to solve the above technical problems, the present invention provides a kind of wisdom energy supplying system terminal.
Technical solution is as follows:
A kind of wisdom energy supplying system terminal, key are: including terminal integrated management controller, hot oil energy-storage module
With high pressure gas energy storage module, wherein the energy input terminal group of terminal integrated management controller is connected at least two kinds of period energy
Feeding mechanism;
The hot oil energy-storage module is energized by solar energy optical-thermal, the output end of hot oil energy-storage module and the control of terminal integrated management
The thermal energy recovery end of device processed connects;
The gas energy storage end of terminal integrated management controller is connect with the input terminal of high pressure gas energy storage module, high pressure gas accumulation of energy
The gas energy recovery end of the output end connection terminal integrated management controller of module;
The electric energy output end of terminal integrated management controller exports electric energy outward, and the thermal energy of terminal integrated management controller is defeated
Outlet exports thermal energy and cold energy outward;
The period energy supply device is divided into photovoltaic generator and utility grid;
The electric energy of the photovoltaic generator is conveyed to the control of delivery terminal integrated management after the conversion of photovoltaic inversion device
Device, the utility grid directly transport electric energy to the terminal integrated management controller.
Above technical scheme provides two kinds of energy storage modes of high pressure gas accumulation of energy and hot oil energy storage, and suitable side may be selected in user
The various remaining energy " storage " are provided multiple forms of energy to complement each other in high pressure gas and high-temperature hot oil, and can in due course exported energy by formula networking.
Above-mentioned terminal integrated management controller includes LiBr-Air-conditioner host, heat pump hot water air conditioning host, high temperature heat pipe
Reason system and power supply smart handoff manager;
The input terminal of the LiBr-Air-conditioner host and heat pump hot water air conditioning host passes through the same high warm respectively
Energy management system is connect with the output end of the hot oil energy-storage module;
The LiBr-Air-conditioner host and heat pump hot water air conditioning host are connected to the same air conditioner cold-heat transmission & distribution management module
On;
The input terminal group of the power supply smart handoff manager is electric with the output end of the photovoltaic generator and alternating current respectively
The circuit of output terminal of net connects, and the output end of the power supply smart handoff manager is connected with micro-capacitance sensor allocation manager and pneumatics
The output end of machine, the micro-capacitance sensor allocation manager exports electric energy outward, which is also the lithium bromide
Air-conditioner host and heat pump hot water air conditioning host supplying power;
The output end of the air compressor machine and the high pressure gas energy storage module air circuit connection, the electric power of the high pressure gas energy storage module
Output end is connect with the inlet circuit of the power supply smart handoff manager.
The input terminal group of above-mentioned power supply smart handoff manager respectively with the output end and photovoltaic power generation of the utility grid
The circuit of output terminal of inverter connects.
Above-mentioned high pressure gas energy storage module includes n pressure pan, n-1 jet pump, n turbo-generator, air cleaning dress
It sets, booster pump and overbottom pressure tank;
There is n output end on the air compressor machine and is corresponded respectively by gas circuit with the input terminal of the n pressure pans
Connection;
First turbo-generator, first turbine are wherein installed in the High voltage output gas circuit of first pressure pan
Air cleaning unit described in the downstream air circuit connection of generator;
The air cleaning unit includes purification cavity and is mounted on the intracorporal fan impeller of the purify cavity and filters dress
It sets, after the downstream gas circuit of first turbo-generator protrudes into purification cavity, blows the fan impeller, the purify cavity is external
Wall is equipped with suction hole and gas vent;
First input end of remaining n-1 pressure pan high-voltage output ends respectively with the n-1 jet pumps passes through gas
Road connects one to one, and a turbo-generator is separately installed in the High voltage output gas circuit of the n-1 jet pumps, and n-1 is a
The downstream gas circuit of the turbo-generator converges on the booster pump input terminal, the pressurization pump output terminal and the overbottom pressure tank
Input terminal passes through gas circuit by air circuit connection, second input terminal of the overbottom pressure tank output end respectively with the n-1 jet pumps
It connects one to one;
The first pressure pan low-voltage output and first the second input terminal of jet pump are by air circuit connection, in turn, the
N-1 pressure pan low-voltage output and (n-1)th the second input terminal of jet pump pass through air circuit connection;
The power output end of the n turbo-generators collects the rear input terminal electricity with the power supply smart handoff manager
Road connection.
Using above technical scheme, mesolow gas can be beneficial to drive turbine to generate electricity by jet pump in pressure pan
Machine power generation, while the unemployed mesolow gas of turbo-generator is collected into overbottom pressure tank by booster pump, overbottom pressure tank and with
Jet pump connection realizes the recycling of mesolow gas, and can be with repeated recycling utilize, so returning in entire electric energy
It receives using in system, wherein energy is all recycled substantially without wasting in low-pressure gas, therefore the recycling of electric energy is sharp again
It is high with rate, and the unemployed mesolow gas of the first turbo-generator leads to and is used to drive air cleaning unit, energy
It is fully utilized, is used for purifying contaminated gas, achievees the purpose that environment purification, be also conducive to air compressor normal use.
It is mounted on a flow regulator in each described turbo-generator input terminal gas circuit, each described flow
Adjuster is used to adjust the gas flow in corresponding turbo-generator input terminal gas circuit.
Check valve is provided in gas circuit between the booster pump and the overbottom pressure tank.
A control switch is provided in the input terminal gas circuit of each pressure pan.
The top of the fan impeller is arranged in the filter device, and the suction hole is located under the fan impeller
Side, the gas vent are located at the top of the filter device.
Above-mentioned hot oil energy-storage module is solar energy optical-thermal energy supply.
The utility model has the advantages that wisdom energy supplying system terminal of the invention provides two kinds of energy storage of high pressure gas accumulation of energy and hot oil energy storage
Mode, suitable mode networking may be selected in user, by excess energy " storage " in photovoltaic generator and utility grid in high pressure gas
It in high-temperature hot oil, provides multiple forms of energy to complement each other, and can in due course export energy;It, can by introducing jet pump when using high pressure gas accumulation of energy
To realize the recycling of mesolow gas, and can be more efficient with repeated recycling utilize.
Specific embodiment
Below with reference to embodiment and attached drawing, the invention will be further described.
As shown in Figure 1, a kind of wisdom energy supplying system terminal, including terminal integrated management controller 11, hot oil energy storage mould
Block a and high pressure gas energy storage module m, wherein the energy input terminal group of terminal integrated management controller 11 is connected at least two kinds of periods
Performance source supply device 1;
The hot oil energy-storage module a is energized by solar energy optical-thermal, the output end and terminal integrated management of hot oil energy-storage module a
The thermal energy recovery end of controller 11 connects;
The gas energy storage end of terminal integrated management controller 11 is connect with the input terminal of high pressure gas energy storage module m, high pressure gas
The gas energy recovery end of the output end connection terminal integrated management controller 11 of energy storage module m;
The electric energy output end of terminal integrated management controller 11 exports electric energy, the heat of terminal integrated management controller 11 outward
Energy output end exports thermal energy and cold energy outward, and cold energy is the outside cooling supply in the form of cold water or cold air;
The period energy supply device 1 divides for photovoltaic generator 103 and utility grid 104;
The electric energy of the photovoltaic generator 103 is conveyed to delivery terminal integrated management after photovoltaic inversion device n conversion
Controller 11, the utility grid 104 directly transport electric energy to the terminal integrated management controller 11.
The terminal integrated management controller 11 includes LiBr-Air-conditioner host b, heat pump hot water air conditioning host c, Gao Wenre
It can management system p and power supply smart handoff manager k;
The input terminal of the LiBr-Air-conditioner host b and heat pump hot water air conditioning host c pass through the same high temperature respectively
Thermal management systems p is connect with the output end of the hot oil energy-storage module a;
The LiBr-Air-conditioner host b and heat pump hot water air conditioning host c is connected to the same air conditioner cold-heat transmission & distribution management mould
On block j;
The input terminal group of the power supply smart handoff manager k respectively with the output end of the photovoltaic generator 103 and city
The circuit of output terminal of power grid 104 connects, and the output end of the power supply smart handoff manager k is connected with micro-capacitance sensor distribution management
Device r and air compressor machine s, the output end of the micro-capacitance sensor allocation manager r export electric energy outward, and micro-capacitance sensor allocation manager r is also
It powers for the LiBr-Air-conditioner host b and heat pump hot water air conditioning host c;
The output end of the air compressor machine s and the high pressure gas energy storage module m air circuit connection, high pressure gas energy storage module m's
Power output end is connect with the inlet circuit of the power supply smart handoff manager k.
The input terminal group of the power supply smart handoff manager k output end and photovoltaic with the utility grid 104 respectively
The circuit of output terminal of power-generation inversion device n connects.
The input terminal of the hot oil energy-storage module a is energized by solar energy optical-thermal.
The hot oil energy-storage module a, high temperature heat management system p, power supply smart handoff manager k, air conditioner cold-heat transmission & distribution
Management module j, power supply smart handoff manager k and micro-capacitance sensor allocation manager r are the prior art, such as:
The hot oil energy-storage module a can be oil storage tank, and when heated, oil temperature rises storage to the energy storage oil in the oil storage tank
Energy;
The high temperature heat management system p can be heat exchanger, and the high-temperature hot oil of oil storage tank connects the disengaging of high temperature fluid
Mouthful, cryogen connects the inlet and outlet of the high temperature fluid of heat exchanger respectively, heat exchange, cryogen liter is carried out in heat exchanger
Enter the input terminal of LiBr-Air-conditioner host b and heat pump hot water air conditioning host c after temperature;
The air conditioner cold-heat transmission & distribution management module j can be PLC or relay control combination.For mature switch control skill
Art.
The power supply smart handoff manager k can be the switch of the selection with multiple input terminals and multiple output ends, or
Fork shift switch.
The micro-capacitance sensor allocation manager r can be porous socket.
In conjunction with Fig. 2 and Fig. 3 can be seen that the high pressure gas energy storage module m include n pressure pan G1, G2 ... Gn-1,
Gn, n-1 jet pump S1 ... Sn-2, Sn-1, n turbo-generator F1, F2 ... Fn-1, Fn, air cleaning unit 6 increase
Press pump 7 and overbottom pressure tank 8, wherein n is the positive integer greater than 1.
The air compressor machine s can convert high pressure gas for low-pressure gas when working, which specifically can be air, described
There is n output end on air compressor machine s, each output end of air compressor machine s passes through control switch 3 and each described pressure pan
G1, G2 ... Gn-1, Gn input terminal air circuit connection simultaneously correspond, and the control switch 3 is corresponding each for controlling
A pressure pan G1, G2 ... Gn-1, Gn input terminal gas circuit is turned on or off.
First turbo-generator F1, the first turbine hair are wherein installed in the High voltage output gas circuit of the first pressure pan G1
Air cleaning unit 6 described in the downstream air circuit connection of motor F1;The high pressure of remaining n-1 pressure pan G2 ... Gn-1, Gn
Output end is connected one to one with n-1 the jet pump S1 ... Sn-2, Sn-1 first input ends by gas circuit respectively, n-1
Be separately installed on a jet pump S1 ... Sn-2, Sn-1 High voltage output gas circuit a turbo-generator F2 ... Fn-1,
Fn, the n-1 turbo-generator F2 ... Fn-1, Fn downstream gas circuit converge on 7 input terminal of booster pump, the pressurization
7 output ends and 8 input terminal of overbottom pressure tank are pumped by air circuit connection, in the gas circuit between the booster pump 7 and the overbottom pressure tank 8
Be provided with check valve 9,8 output end of overbottom pressure tank respectively with n-1 the jet pump S1 ... Sn-2, the second input terminal of Sn-1
It is connected one to one by gas circuit;First pressure pan G1 low-voltage output and first the second input terminal of jet pump S1 are connected by gas circuit
It connects, in turn, the (n-1)th pressure pan Gn-1 low-voltage output and (n-1)th the second input terminal of jet pump Sn-1 pass through air circuit connection.
In the above-described embodiments, pacify in the input terminal gas circuit of each described turbo-generator F1, F2 ... Fn-1, Fn
Equipped with a flow regulator 4, each described flow regulator 4 is for adjusting corresponding turbo-generator F1, F2 ... Fn-
1, nozzle flow adjusting can be used in the gas flow in Fn input terminal gas circuit, in the above-described embodiments, the flow regulator 4
Device, nozzle flow adjuster can control signal according to payload delivery nozzle, automatically control and open, close nozzle quantity, from
And adjust generated electric power output size.
Each described control switch 3 is for controlling corresponding pressure pan G1, G2 ... Gn-1, Gn input
End gas circuit is turned on or off, in its control process, it can be achieved that simultaneously using one or more described pressure pan G1,
G2 ... Gn-1, Gn store high pressure gas, can also be when gas in one of them described pressure pan G1, G2 ... Gn-1, Gn
After storage is full, another or multiple pressure pan G1, G2 ... Gn-1, Gn are then turned on to store extra high pressure gas, can be closed
The storage mode of reason distribution or control high pressure gas, can be improved the utilization rate for the high pressure gas that the air compressor machine s is generated.
In the above-described embodiments, described turbo-generator F1, F2 ... Fn-1, Fn are specifically to belong to prior art construction,
It includes the parts such as impeller, transmission shaft, generator, its working principle is that: when high pressure gas can produce huge kinetic energy driving hair
Electric motor with vane wheel rotation, and impeller can drive generator rotation power generation by generator drive axle;The n turbo-generator F1,
F2 ... Fn-1, Fn power output end collect the rear inlet circuit with the power supply smart handoff manager k and connect.
In the above-described embodiments, the air cleaning unit 6 includes purification cavity 60 and is mounted in the purification cavity 60
Fan impeller 61 and filter device 62, the downstream gas circuit of the first turbo-generator F1 protrude into purification cavity 60 after, blow
The fan impeller 61, the filter device 62 are arranged in the top of the fan impeller 61, on 60 outer wall of purification cavity
Equipped with suction hole 63 and gas vent 64, the suction hole 63 is located at the lower section of the fan impeller 61, and the gas vent 64 is located at
The top of the filter device 62, the filter device 62 is using at least one layer of filtering material by being superimposed.First turbine
Generator F1 can only be using the high-pressure section of output gas in the first pressure pan G1, through the first turbo-generator in power generation process
Low-pressure gas after F1 is utilized is used to drive power turbine on fan impeller 61 to rotate, then is driven to kinetic energy by transmission component
On blower and the blower rotation work is driven, to realize 6 air-breathing of air cleaning unit and degassing function.
Finally, it should be noted that foregoing description is only the preferred embodiment of the present invention, the ordinary skill people of this field
Member under the inspiration of the present invention, without prejudice to the purpose of the present invention and the claims, can make multiple similar tables
Show, such transformation is fallen within the scope of protection of the present invention.