CN202586475U - Power generation and storage system based on temperature difference of window between summer and winter - Google Patents

Abstract

The utility model discloses a power generation and storage system based on the temperature difference of a window between summer and winter, wherein N thermoelectric power generation sheets are embedded in the window glass of a window. The thermoelectric power generation sheets are hermetically fixed in the window glass through tightening rings and the window glass is hermetically fixed within a window frame. The output of the thermoelectric power generation sheets is connected with a temperature difference power generation and storage system composed of a voltage stabilization module, a boost module, a power storage module and a power supply module through a leading-out wire, wherein the voltage stabilization module, the boost module, the power storage module and the power supply module are serially connected with each other. Due to the adoption of the power generation and storage system, a certain voltage is obtained and electric energy of a better quality can be generated through the voltage stabilization module, the boost module and the power storage module. The power generation and storage system can be applied to the window of a building or a train so as to realize the indoor illumination within the building or the train both in winter and in summer. Since the temperature difference is stable and can generate huge energy, the circuit of the system is excellent in loading capacity. Thus, the power generation and storage system can also be used as a charging power supply of an electronic product.

Description

A kind of generating accumulating system that utilizes summer in the winter window temperature difference

Technical field

The utility model belongs to the temperature difference electricity generation device field, particularly a kind of generating accumulating system that utilizes summer in the winter window temperature difference.

Background technology

The principle of semiconductor temperature differential generating is to utilize the Seebeck effect of thermoelectric material, directly changes heat energy into electric energy, and its advantage is fairly obvious: have pollution-free; Noiselessness; There are not the machinery wearing and tearing, long service life, maintenance cost is low etc.; Being widely used in waste heat used heat and utilizing the field again, is a green energy resource technology that has a extensive future.

At present, the thermo-electric generation technology of China is mainly used in high-end fields such as industry and space flight and aviation, and the utility model is mainly used in civil area, has more wide application prospect.

China is vast in territory, and the huge energy that the tangible temperature difference of summer in building winter two seasons indoor and outdoor is contained is dissipated to the external world for a long time, can not get any utilization.When seeking new construction material, the utility model is fully turned waste into wealth, and energy-saving and emission-reduction are of great importance.

The reason that present thermo-electric generation technology can not get extensive use is the electric energy that thermo-electric generation produces: voltage is low, spread of voltage.Current two season of summer in the winter indoor/outdoor temperature-difference of need solving is very big, has the unemployed problem of significant amount of energy and how to solve the inferior problem of generating of semiconductor temperature differential generating.

The utility model content

The purpose of the utility model is that the voltage that produces to present thermo-electric generation is low; The deficiency of spread of voltage and propose a kind of generating accumulating system that utilizes summer in the winter window temperature difference; It is characterized in that, be embedded in 1-N thermo-electric generation sheet 2 at window-glass 1, thermo-electric generation sheet 2 by dead ring 3 sealing and fixing on window-glass 1; Window-glass 1 sealing and fixing is in window frame 4, and the output of thermo-electric generation sheet 2 is connected to Voltage stabilizing module, boost module, power storage module and the supply module of series connection through lead 5.

The thickness of said thermo-electric generation sheet 2 equals the thickness of window-glass (1).

Said thermo-electric generation sheet 2 is a semi-conductor thermo-electric generation module; It simultaneously is exposed to indoor, contacts with indoor environment, and another side directly contacts with outdoor environment; The high temperature source of indoor and outdoor and cold temperature source are electric energy with the two sides that acts on the thermo-electric generation sheet simultaneously with thermal power transfer.

The said N that is embedded in N thermo-electric generation sheet at window-glass is 5-20.

The invention has the beneficial effects as follows that this device utilizes two season of summer in winter indoor and outdoor temperature that tangible difference is arranged, and the temperature difference can this phenomenon of significant change not generated electricity in short-term.Because the thermo-electric generation sheet has sealing, the isolation of window-glass; Indoor and outdoor heat energy can be through not installing the slit exchange, and the temperature sheet can send stable electric energy like this, and several such devices are together in series; Obtain certain voltage; And through Voltage stabilizing module, boost module, power storage module makes produces quality electric energy preferably.The utility model can be applicable on the window of building or train, and indoor (in the train) illumination is being provided in two seasons of summer in winter; Because the temperature difference is stable and energy that wherein contain is huge, circuit has very strong carrying load ability, and the present invention also can be used as the charge power supply of electronic product.

Description of drawings

Fig. 1: the pie graph of generator unit;

Fig. 2: thermo-electric generation accumulating system sketch map

Embodiment

A kind of generating accumulating system that utilizes summer in the winter window temperature difference that the utility model provides.Below in conjunction with accompanying drawing the utility model is explained.

At thermo-electric generation accumulating system sketch map shown in Figure 1.In the pie graph of generator unit shown in Figure 2; Window-glass 1 sealing and fixing is in window frame 4; Be embedded in the individual thermo-electric generation sheet 2 of N (N is 5-20) at window-glass 1; On window-glass 1, the thickness of thermo-electric generation sheet 2 equals the thickness of window-glass (1) to thermo-electric generation sheet 2 by dead ring 3 sealing and fixing.The output of thermo-electric generation sheet 2 is connected to Voltage stabilizing module, boost module, power storage module and the supply module of series connection through lead 5.

Because thermo-electric generation sheet 2 is a semi-conductor thermo-electric generation module; It simultaneously is exposed to indoor, contacts with indoor environment, and another side directly contacts with outdoor environment; The high temperature source of indoor and outdoor and cold temperature source are electric energy with the two sides that acts on the thermo-electric generation sheet simultaneously with thermal power transfer.

Embodiment

Thermo-electric generation system is by some generator units, Voltage stabilizing module, and the transformation module, power storage module and supply module are composed in series.Generator unit is by thermo-electric generation sheet 2, window-glass 1, and collar 3 is formed.Correspondingly at the edge of window-glass 1 have some square grooves, size and shape are consistent with thermo-electric generation sheet 2, thermo-electric generation sheet 2 is put collar 3 reinstall in the square groove of opening at the edge of window-glass 1; Draw lead 5 by the power outlet of thermo-electric generation sheet 2 again each thermo-electric generation sheet 2 is carried out connection in series-parallel; Form the thermo-electric generation unit, and then be connected in series to Voltage stabilizing module, boost module by drawing lead 5; Power storage module and supply module are formed thermo-electric generation system.Wherein Voltage stabilizing module is made up of straight electric bridge of alternation (considering the polarity difference of generating electricity summer in winter) and big capacitance voltage stabilizing module.Boost module is made up of the non-isolation type boost chopper.Power storage module is made up of storage battery and output circuit.Supply module can be selected lighting circuit, charging circuit etc. for use as required.

During work, the electric energy that generator unit produces carries out voltage stabilizing through Voltage stabilizing module earlier, is boosted by boost module again, obtains storing through power storage module after the certain voltage, and supply module is power supply with the power storage module, for the user provides high-quality electric energy.

Claims (4)

1. generating accumulating system that utilizes summer in the winter window temperature difference; It is characterized in that; Be embedded in N thermo-electric generation sheet (2) at window-glass (1); On window-glass (1), window-glass (1) sealing and fixing is in window frame (4) by dead ring (3) sealing and fixing for thermo-electric generation sheet (2), and the output of thermo-electric generation sheet (2) is connected to Voltage stabilizing module, boost module, power storage module and the supply module of series connection through drawing lead (5).

2. according to the said generating accumulating system that utilizes summer in the winter window temperature difference of claim 1, it is characterized in that the thickness of said thermo-electric generation sheet (2) equals the thickness of window-glass (1).

3. according to the said generating accumulating system that utilizes summer in the winter window temperature difference of claim 1; It is characterized in that said thermo-electric generation sheet (2) is a semi-conductor thermo-electric generation module, it simultaneously is exposed to indoor; Contact with indoor environment; Another side directly contacts with outdoor environment, and the high temperature source of indoor and outdoor and cold temperature source are electric energy with the two sides that acts on the thermo-electric generation sheet simultaneously with thermal power transfer.

4. according to the said generating accumulating system that utilizes summer in the winter window temperature difference of claim 1, it is characterized in that the said N that is embedded in N thermo-electric generation sheet at window-glass is 5-20.

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