CN205909553U - Wisdom energy supply terminal mechanism - Google Patents

Abstract

The utility model discloses a wisdom energy supply terminal mechanism, including terminal integrated management controller, heat oily energy storage module and the height energy storage module that calms the anger, wherein the energy input end group of terminal integrated management controller is connected with photovoltaic generator or commercial power electric wire netting. The oily energy storage module of heat is connected with the heat recovery end of terminal integrated management controller by solar energy light and heat energy supply, its output, terminal integrated management controller and height are calmed the anger energy storage module and are connected outside the power output of terminal integrated management controller and heat energy. This scheme of adoption, the suitable mode network deployment of user's optional, with excess energy " storage " in photovoltaic generator and the commercial power electric wire netting the height calm the anger and high warm oil in, provide multiple forms of energy to complement each other to can be in good time with energy output, when adopting the height to calm the anger the energy storage, low pressure gas's circulation recycle in can realizing through the introduction jet pump, and can repeat cyclic utilization, efficiency is higher.

Description

Wisdom energy supply terminal mechanism

Technical field

This utility model is related to a kind of energy energy storage, release system and in particular to a kind of wisdom energy supply terminal mechanism.

Background technology

Energy problem is the outstanding problem that the world today faces, and the energy that wind, light, water, electricity, gas are contained is all with by people Effectively utilizes, are widely used in the fields such as heating, refrigeration, generating.But world today's electric load is unbalanced increasingly prominent, electricity The peak-valley difference of net also gradually widens, the also more and more higher of the requirement to grid supply quality for the people simultaneously, therefore in the urgent need to economical, Stable, reliable, efficient electric energy storing system matches therewith, the situation excessive to alleviate system loading peak-valley difference.Electric power stores up Can system be also to improve the effective means of the renewable energy utilization rates such as wind-powered electricity generation, solar electrical energy generation.Additionally, electric energy storing system is also It is the key technology solving the problems such as distributed energy resource system capacity is little, load fluctuation is big.

Utility model content

For solving above technical problem, this utility model provides a kind of wisdom energy supply terminal mechanism.

Technical scheme is as follows:

A kind of wisdom energy supply terminal mechanism, it is critical only that: includes terminal integrated management controller, deep fat energy-storage module With high pressure gas energy storage module, the energy input group of wherein terminal integrated management controller is connected with least two kinds period energy Feeding mechanism；

Described deep fat energy-storage module is by solar energy optical-thermal energy supply, the outfan of deep fat energy-storage module and terminal integrated management control The energy recovery end of device processed connects；

The gas energy storage end of terminal integrated management controller is connected with the input of high pressure gas energy storage module, high pressure gas accumulation of energy The outfan of module connects the gas energy recovery end of terminal integrated management controller；

The electric energy output end of terminal integrated management controller outwards exports electric energy, and the heat energy of terminal integrated management controller is defeated Go out end and outwards export heat energy and cold energy；

Described period energy supply device is divided into photovoltaic generator and utility grid；

The electric energy of described photovoltaic generator is conveyed to feeding terminal integrated management after the conversion of photovoltaic inversion device and controls Device, described utility grid directly conveys electric energy to described terminal integrated management controller.

Above technical scheme provides high pressure gas accumulation of energy and two kinds of energy storage patterns of deep fat energy storage, and user may be selected suitable side Formula networking, by the various residues energy " storage " in high pressure gas and high-temperature hot oil, provides multiple forms of energy to complement each other, and can export energy in good time.

Above-mentioned terminal integrated management controller includes LiBr-Air-conditioner main frame, heat pump hot water air conditioning main frame, high temperature heat pipe Reason system and power supply smart handoff manager；

The input of described LiBr-Air-conditioner main frame and heat pump hot water air conditioning main frame passes through same described high warm respectively Can management system be connected with the outfan of described deep fat energy-storage module；

Described LiBr-Air-conditioner main frame and heat pump hot water air conditioning main frame are connected to same air conditioner cold-heat transmission ＆ distribution management module On；

The input group of described power supply smart handoff manager outfan and the civil power electricity with described photovoltaic generator respectively The circuit of output terminal of net connects, and the outfan of described power supply smart handoff manager is connected with micro-capacitance sensor allocation manager and pneumatics Machine, the outfan of described micro-capacitance sensor allocation manager outwards exports electric energy, and this micro-capacitance sensor allocation manager is also described lithium bromide Air-conditioner host and heat pump hot water air conditioning host supplying power；

The outfan of described air compressor machine is connected with described high pressure gas energy storage module gas circuit, the electric power of this high pressure gas energy storage module Outfan is connected with the inlet circuit of described power supply smart handoff manager.

The input group of above-mentioned power supply smart handoff manager outfan and the photovoltaic generation with described utility grid respectively 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 Put, booster pump and overbottom pressure tank；

N outfan is had on described air compressor machine and the input with n described pressure pan is corresponded by gas circuit respectively Connect；

First turbo-generator, described first turbine are provided with the High voltage output gas circuit of wherein first described pressure pan The downstream gas circuit of electromotor connects described air cleaner；

Described air cleaner includes purifying cavity and the fan impeller being arranged in this purification cavity and filters dress Put, after the downstream gas circuit of described first turbo-generator stretches into purification cavity, blow described fan impeller, outside described purification cavity Wall is provided with suction hole and steam vent；

Remaining n-1 described pressure pan high-voltage output end passes through gas with the first input end of n-1 described jet pump respectively Road connects one to one, and the High voltage output gas circuit of n-1 described jet pump is separately installed with a turbo-generator, n-1 The downstream gas circuit of described turbo-generator converges on described booster pump input, described supercharging pump output terminal and described overbottom pressure tank Input is connected by gas circuit, and described overbottom pressure tank outfan passes through gas circuit with the second input of n-1 described jet pump respectively Connect one to one；

Described first pressure pan low-voltage output is connected by gas circuit with first jet pump the second input, in turn, the N-1 pressure pan low-voltage output is connected by gas circuit with (n-1)th jet pump the second input；

The power output end of n described turbo-generator is electric with the input of described power supply smart handoff manager after collecting Road connects.

Using above technical scheme, in pressure pan, mesolow gas can be beneficial to drive turbine to generate electricity by jet pump Machine generate electricity, turbo-generator unemployed mesolow gas is collected in overbottom pressure tank by booster pump simultaneously, overbottom pressure tank and with Jet pump connects it is achieved that the recycling of mesolow gas, and can be utilized with repetitive cycling, so returning in whole electric energy Receive using in system, wherein in low-pressure gas, energy is all recycled substantially without wasting, therefore the recovery of electric energy is sharp again High with rate, and the first turbo-generator unemployed mesolow gas leads to and is used for driving air cleaner, energy It is fully utilized, for purifying contaminated gas, reach the purpose of environment purification, also normally use beneficial to air compressor.

It is mounted on a flow regulator, each described flow in each described turbo-generator input gas circuit Actuator is used for adjusting the gas flow in corresponding turbo-generator input gas circuit.

It is provided with check valve in gas circuit between described booster pump and described overbottom pressure tank.

One controlling switch is provided with the input gas circuit of each described pressure pan.

Described defecator is arranged on the top of described fan impeller, and described suction hole is located under described fan impeller Side, described steam vent is located at the top of described defecator.

Above-mentioned deep fat energy-storage module is solar energy optical-thermal energy supply.

Beneficial effect: wisdom energy supply terminal mechanism of the present utility model provides high pressure gas accumulation of energy and two kinds of deep fat energy storage Energy storage pattern, user may be selected suitable mode networking, by excess energy " storage " in photovoltaic generator and utility grid in height Calm the anger and high-temperature hot oil in, provide multiple forms of energy to complement each other, and can energy be exported in good time；When using high pressure gas accumulation of energy, by introducing jet Pump can realize the recycling of mesolow gas, and can be utilized with repetitive cycling, in hgher efficiency.

Brief description

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the theory diagram of high pressure gas energy storage module m；

Fig. 3 is the structural representation of air cleaner 6.

Specific embodiment

With reference to embodiment and accompanying drawing, the utility model is described in further detail.

As shown in figure 1, a kind of wisdom energy supply terminal mechanism, including terminal integrated management controller 11, deep fat energy storage mould The energy input group of block a and high pressure gas energy storage module m, wherein terminal integrated management controller 11 is connected with least two kinds periods Performance source supply device 1；

Described deep fat energy-storage module a is by solar energy optical-thermal energy supply, the outfan of deep fat energy-storage module a and terminal integrated management The energy recovery end of controller 11 connects；

The gas energy storage end of terminal integrated management controller 11 is connected with the input of high pressure gas energy storage module m, high pressure gas The outfan of energy storage module m connects the gas energy recovery end of terminal integrated management controller 11；

The electric energy output end of terminal integrated management controller 11 outwards exports electric energy, the heat of terminal integrated management controller 11 Heat energy and cold energy can outwards be exported by outfan, cold energy is outside cooling in the form of cold water or cold air；

Described period energy supply device 1 is divided into photovoltaic generator 103 and utility grid 104；

The electric energy of described photovoltaic generator 103 is conveyed to feeding terminal integrated management after photovoltaic inversion device n conversion Controller 11, described utility grid 104 directly conveys electric energy to described terminal integrated management controller 11.

Described terminal integrated management controller 11 includes LiBr-Air-conditioner main frame b, heat pump hot water air conditioning main frame c, high warm Can management system p and power supply smart handoff manager k；

The input of described LiBr-Air-conditioner main frame b and heat pump hot water air conditioning main frame c passes through same described high temperature respectively Thermal management systems p are connected with the outfan of described deep fat energy-storage module a；

Described LiBr-Air-conditioner main frame b and heat pump hot water air conditioning main frame c is connected to same air conditioner cold-heat transmission ＆ distribution management mould On block j；

The input group of described power supply smart handoff manager k outfan and the city with described photovoltaic generator 103 respectively The circuit of output terminal of electrical network 104 connects, and the outfan of described power supply smart handoff manager k is connected with micro-capacitance sensor allocation manager Device r and air compressor machine s, the outfan of described micro-capacitance sensor allocation manager r outwards exports electric energy, and this micro-capacitance sensor allocation manager r is also It is described LiBr-Air-conditioner main frame b and heat pump hot water air conditioning main frame c powers；

The outfan of described air compressor machine s is connected with described high pressure gas energy storage module m gas circuit, this high pressure gas energy storage module m's Power output end is connected with the inlet circuit of described power supply smart handoff manager k.

The input group of described power supply smart handoff manager k outfan and the photovoltaic with described utility grid 104 respectively The circuit of output terminal of power-generation inversion device n connects.

The input of described deep fat energy-storage module a is by solar energy optical-thermal energy supply.

Described deep fat 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 prior art, for example:

Described deep fat energy-storage module a can be oil storage tank, and in heating, oil temperature rises storage to the energy storage oil in this oil storage tank Energy；

Described high temperature heat management system p can be heat exchanger, and the high-temperature hot oil of oil storage tank connects the turnover of high temperature fluid Mouthful, cryogen connects the import and export of the high temperature fluid of heat exchanger respectively, carries out heat exchange, cryogen liter in heat exchanger The input of LiBr-Air-conditioner main frame b and heat pump hot water air conditioning main frame c is entered after temperature；

Described air conditioner cold-heat transmission ＆ distribution management module j can be plc or Control combination.For ripe on-off control skill Art.

Described power supply smart handoff manager k can be the selecting switch with multiple inputs and multiple outfan, or Fork shift switchs.

Described micro-capacitance sensor allocation manager r can be porous socket.

In conjunction with Fig. 2 and Fig. 3 can be seen that described 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 cleaner 6, increasing Press pump 7 and overbottom pressure tank 8, wherein n is the positive integer more than 1.

Low-pressure gas can be converted into gases at high pressure during described air compressor machine s work, this gas can be specifically air, described N outfan is had on air compressor machine s, each outfan of this air compressor machine s is all by controlling switch 3 and each described pressure pan G1, g2 ... gn-1, gn input gas circuit connects and corresponds, and this described controlling switch 3 is used for controlling corresponding each Being turned on or off of individual described pressure pan g1, g2 ... gn-1, gn input gas circuit.

First turbo-generator f1 is provided with the High voltage output gas circuit of the wherein first pressure pan g1, described first turbine is sent out The downstream gas circuit of motor f1 connects described air cleaner 6；The high pressure of remaining n-1 described pressure pan g2 ... gn-1, gn Outfan is connected one to one by gas circuit with n-1 described jet pump s1 ... sn-2, sn-1 first input end respectively, n-1 Be separately installed with individual described jet pump s1 ... sn-2, sn-1 High voltage output gas circuit turbo-generator f2 a ... fn-1, The downstream gas circuit of fn, this n-1 described turbo-generator f2 ... fn-1, fn converges on booster pump 7 input, described supercharging Pump 7 outfan is connected by gas circuit with described overbottom pressure tank 8 input, in the gas circuit between described booster pump 7 and described overbottom pressure tank 8 It is provided with check valve 9, described overbottom pressure tank 8 outfan individual described jet pump s1 ... sn-2, sn-1 the second input with n-1 respectively Connected one to one by gas circuit；First pressure pan g1 low-voltage output and first jet pump s1 the second input are by gas circuit even Connect, in turn, the (n-1)th pressure pan gn-1 low-voltage output is connected by gas circuit with (n-1)th jet pump sn-1 the second input.

In the above-described embodiments, the input gas circuit of each described turbo-generator f1, f2 ... fn-1, fn is all pacified Equipped with a flow regulator 4, each described flow regulator 4 is used for adjusting corresponding turbo-generator f1, f2 ... fn- 1st, the gas flow in fn input gas circuit, in the above-described embodiments, described flow regulator 4 can be adjusted using nozzle flow Device, nozzle flow actuator can automatically control and open, cut out nozzle quantity according to payload delivery nozzle control signal, from And adjust generated electric power output size.

Each described controlling switch 3 is used for controlling corresponding described pressure pan g1, g2 ... gn-1, a gn to input End being turned on or off of gas circuit, in its control process, can achieve adopt simultaneously one or more described pressure pan g1, G2 ... gn-1, gn are storing gases at high pressure it is also possible to when gas in one of described pressure pan g1, g2 ... gn-1, gn After storage is full, it is then turned on another one or multiple pressure pan g1, g2 ... gn-1, gn to store unnecessary gases at high pressure, can close Reason distribution or the storage mode controlling gases at high pressure, can improve the utilization rate of the gases at high pressure that described air compressor machine s produces.

In the above-described embodiments, described turbo-generator f1, f2 ... fn-1, fn are specifically belonging to prior art construction, It includes the parts such as impeller, power transmission shaft, electromotor, and its operation principle is: sends out when gases at high pressure can produce huge kinetic energy driving Electric motor with vane wheel rotates, and impeller can drive electromotor to rotate generating by generator drive axle；The individual described turbo-generator f1 of n, The power output end of f2 ... fn-1, fn is connected with the inlet circuit of described power supply smart handoff manager k after collecting.

In the above-described embodiments, described air cleaner 6 includes purifying cavity 60 and is arranged in this purification cavity 60 Fan impeller 61 and defecator 62, after the downstream gas circuit of described first turbo-generator f1 stretches into purification cavity 60, blow Described fan impeller 61, described defecator 62 is arranged on the top of described fan impeller 61, on described purification cavity 60 outer wall It is provided with suction hole 63 and steam vent 64, described suction hole 63 is located at the lower section of described fan impeller 61, described steam vent 64 is located at The top of described defecator 62, this defecator 62 passes through to be superimposed using at least one of which filtering material.First turbine Electromotor f1 can only be using the high-pressure section exporting gas in the first pressure pan g1, through the first turbo-generator in power generation process Low-pressure gas after f1 utilizes is used for driving power turbine on fan impeller 61 to rotate, then is driven to kinetic energy by transmission component On blower fan and drive this blower fan rotation work, it is achieved thereby that described air cleaner 6 air-breathing and degassing function.

Finally it should be noted that foregoing description is only preferred embodiment of the present utility model, the common skill of this area Art personnel, under enlightenment of the present utility model, without prejudice on the premise of this utility model objective and claim, can make Represent as multiple types, such conversion each falls within protection domain of the present utility model.

Claims (8)

1. a kind of wisdom energy supply terminal mechanism it is characterised in that: include terminal integrated management controller (11), deep fat energy storage mould Block (a) and high pressure gas energy storage module (m), the energy input group of wherein terminal integrated management controller (11) is connected with least two Plant period energy supply device (1)；

Described period energy supply device (1) is divided into photovoltaic generator (103) and utility grid (104)；

The electric energy of described photovoltaic generator (103) is conveyed to feeding terminal integrated management after photovoltaic inversion device (n) conversion Controller (11)；

Described utility grid (104) directly conveys electric energy to described terminal integrated management controller (11)

, by solar energy thermal modules energy supply, the outfan of deep fat energy-storage module (a) is integrated with terminal for described deep fat energy-storage module (a) The energy recovery end of Management Controller (11) connects；

The gas energy storage end of terminal integrated management controller (11) is connected with the input of high pressure gas energy storage module (m), high pressure gas The outfan of energy storage module (m) connects the gas energy recovery end of terminal integrated management controller (11)；

The electric energy output end of terminal integrated management controller (11) outwards exports electric energy, the heat of terminal integrated management controller (11) Heat energy and cold energy can outwards be exported by outfan.

2. wisdom energy supply terminal mechanism according to claim 1 it is characterised in that: described terminal integrated management controller (11) include LiBr-Air-conditioner main frame (b), heat pump hot water air conditioning main frame (c), high temperature heat management system (p) and power supply smart to cut Change manager (k)；

The input of described LiBr-Air-conditioner main frame (b) and heat pump hot water air conditioning main frame (c) passes through same described high temperature respectively Thermal management systems (p) are connected with the outfan of described deep fat energy-storage module (a)；

Described LiBr-Air-conditioner main frame (b) and heat pump hot water air conditioning main frame (c) are connected to same air conditioner cold-heat transmission ＆ distribution management mould On block (j)；

The input group of described power supply smart handoff manager (k) outfan and the city with described photovoltaic generator (103) respectively The circuit of output terminal of electrical network (104) connects, and the outfan of described power supply smart handoff manager (k) is connected with micro-capacitance sensor distribution Manager (r) and air compressor machine (s), the outfan of described micro-capacitance sensor allocation manager (r) outwards exports electric energy, and this micro-capacitance sensor distributes Manager (r) is also described LiBr-Air-conditioner main frame (b) and heat pump hot water air conditioning main frame (c) is powered；

The outfan of described air compressor machine (s) is connected with described high pressure gas energy storage module (m) gas circuit, this high pressure gas energy storage module (m) Power output end be connected with the inlet circuit of described power supply smart handoff manager (k).

3. wisdom energy supply terminal mechanism according to claim 2 it is characterised in that: described power supply smart handoff manager K the input group of () is connected with the outfan of described utility grid (104) and the circuit of output terminal of photovoltaic inversion device (n) respectively Connect.

4. the wisdom energy supply terminal mechanism according to Claims 2 or 3 it is characterised in that: described high pressure gas energy storage module M () includes 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 cleaner (6), booster pump (7) and overbottom pressure tank (8)；

N outfan and the input difference with n described pressure pan (g1, g2 ... gn-1, gn) are had on described air compressor machine (s) Connected one to one by gas circuit；

First turbo-generator (f1) is provided with the High voltage output gas circuit of wherein first described pressure pan (g1), described first The downstream gas circuit of turbo-generator (f1) connects described air cleaner (6)；

Described air cleaner (6) includes purifying cavity (60) and is arranged on the fan impeller in this purification cavity (60) (61), after and defecator (62), the downstream gas circuit of described first turbo-generator (f1) stretches into purification cavity (60), blow institute State fan impeller (61), described purification cavity (60) outer wall is provided with suction hole (63) and steam vent (64)；

Remaining n-1 described pressure pan (g2 ... gn-1, gn) high-voltage output end described jet pump (s1 ... individual with n-1 respectively Sn-2, sn-1) first input end connected one to one by gas circuit, n-1 described jet pump (s1 ... sn-2, sn-1) One turbo-generator (f2 ... fn-1, fn) is separately installed with High voltage output gas circuit, n-1 described turbo-generator The downstream gas circuit of (f2 ... fn-1, fn) converges on described booster pump (7) input, described booster pump (7) outfan and institute State overbottom pressure tank (8) input to connect by gas circuit, described overbottom pressure tank (8) outfan described jet pump (s1 ... individual with n-1 respectively Sn-2, sn-1) the second input connected one to one by gas circuit；

Described first pressure pan (g1) low-voltage output is connected by gas circuit with the first jet pump (s1) second input, successively Ground, the (n-1)th pressure pan (gn-1) low-voltage output is connected by gas circuit with the (n-1)th jet pump (sn-1) second input；

The power output end of n described turbo-generator (f1, f2 ... fn-1, fn) is managed with described power supply smart switching after collecting The inlet circuit of reason device (k) connects.

5. wisdom energy supply terminal mechanism according to claim 4 it is characterised in that: each described turbo-generator One flow regulator (4), each described flow regulator are mounted on (f1, f2 ... fn-1, fn) input gas circuit (4) it is used for adjusting the gas flow in corresponding turbo-generator (f1, f2 ... fn-1, fn) input gas circuit.

6. wisdom energy supply terminal mechanism according to claim 4 it is characterised in that: described booster pump (7) is remaining with described It is provided with check valve (9) in gas circuit between pressure tank (8).

7. wisdom energy supply terminal mechanism according to claim 4 it is characterised in that: each described pressure pan (g1, G2 ... gn-1, gn) input gas circuit on be provided with a controlling switch (3).

8. wisdom energy supply terminal mechanism according to claim 4 it is characterised in that: described defecator (62) is arranged on The top of described fan impeller (61), described suction hole (63) is located at the lower section of described fan impeller (61), described steam vent (64) it is located at the top of described defecator (62).