CN202937479U - Outdoor automatic air supply system - Google Patents

Abstract

The utility model discloses an outdoor automatic air supply system which comprises a support provided with a solar power system and a fan. The fan is connected with the solar power system, and electricity is supplied for the fan through the solar power system. A temperature controlled switch is arranged between the fan and the solar power system. The solar power system and the fan are arranged on the outdoor support, the temperature controlled switch is arranged between the fan and the solar power system, not only solar energy can be used and an electric supply is saved, but also the fan can be enabled to automatically open and close according to set temperature, no manual monitoring is needed, and labor force is saved. A building integrated photovoltaics (BIPV) type photovoltaic module is adopted by the solar power system, is provided with all functions of a ceiling, and completely replaces the ceiling, and therefore using of ceiling materials is saved, and manufacturing cost is reduced. Compared with the prior art, the outdoor automatic air supply system has the advantages of being simple in structure, convenient to use, simple in start-stop operation, and less in energy consumption.

Description

Outdoor automatic ventilating system

Technical field

The utility model relates to outdoor automatic ventilating system, relates in particular to a kind of system of the automatic ventilating for bus platform.

Background technique

Bus platform, in outdoor roadside, generally only has rain shade and simple and easy bench.In the summer of every sweltering heat, the citizen that wait bus at bus platform often have to stand extremely hot, and the time of waiting for bus is the longest reaches tens minutes.In order to reduce arduous that citizen wait for bus at bus platform, radiation fan is installed and is undoubtedly most suitable scheme.But the bus platform provided with fan in whole city's scope will bring no small electricity charge spending, in order to solve the problem that power consumption is large, there is the technician to propose a kind of solar electrical energy generation that utilizes, radiation fan is powered, so just save the consumption of civil power, reduced electricity charge spending.For example, Chinese patent literature CN201850785U open " a kind of solar energy bus platform ", comprise platform body, ceiling, solar electric power supply system, fan also is housed below ceiling, fan is connected with solar electric power supply system, and provides electric energy by solar electric power supply system; Also be provided with switch in the middle of described platform body, control the switch of fan.Although this solar energy bus platform has also reduced the consumption of the energy when reducing temperature, but it also has following defect: 1, start and stop work is loaded down with trivial details, startup that need to be manual according to different weather conditions and close fan, and when not needing to open fan, but forget and close fan, fan will be wasted the energy be stored in solar electric power supply system so; 2, solar electric power supply system is arranged on the bus platform ceiling, and solar energy itself can directly be used for keeping out wind and rain as ceiling, and ceiling becomes unnecessary design undoubtedly, has increased the cost of equipment.

The model utility content

The purpose of this utility model is to solve the problems of the technologies described above, a kind of outdoor automatic ventilating system is provided, its have advantages of simple in structure, easy to use, start and stop work is simple, energy consumption is few, and solar panel is replaced to sunshade and the ceiling of the use of taking shelter from rain, further reduced the cost of manufacturing.

For reaching above-mentioned purpose, the utility model by the following technical solutions:

A kind of outdoor automatic ventilating system, comprise support, solar power system and fan are set on described support, and described fan is connected with described solar power system, take and power as described fan by described solar power system, between described fan and described solar power system, be provided with temperature detect switch (TDS).

As a kind of preferred version of outdoor automatic ventilating system, between described fan and described solar power system, also be provided with the induction switch of connecting with temperature detect switch (TDS).

Preferably, described induction switch is infrared sensing switch or gravity sensing switch, and the induction switch of the other types that those skilled in the art can be known also all is applicable to the utility model.

As a kind of preferred version of outdoor automatic ventilating system, described solar power system comprises solar panel, for solar energy is converted to electric energy;

Storage battery, for storing or the release electric energy;

Controller, for carrying out power supply control and/or storage battery being carried out to charge/discharge control to fan.

As a kind of preferred version of outdoor automatic ventilating system, described solar panel is BIPV type photovoltaic module.

Preferably, described solar power system comprises at least two solar panels that are arranged in parallel.

Preferred, described solar power system comprises three solar panels that are arranged in parallel.

As a kind of preferred version of outdoor automatic ventilating system, the amorphous silicon BIPV type photovoltaic module that described solar panel is 50W.

Further, the standard operation voltage of described solar panel is 50V, and the standard operation electric current is 1.3A.

As a kind of preferred version of outdoor automatic ventilating system, but described fan is arranged at the position of user's perception air-supply information.

Preferably, described fan is arranged on described support.

Preferably, described fan is arranged on the side of described solar panel near ground.

As a kind of preferred version of outdoor automatic ventilating system, described fan is DC fan.

As a kind of preferred version of outdoor automatic ventilating system, be provided for the direct current of solar panel output is converted to the inverter of Ac between described controller and fan, described fan is ac fan.

Preferably, the quantity of described fan is at least one.

Preferred, the quantity of described fan is two, and is series connection setting.

A kind of automatic ventilating method, used outdoor automatic ventilating system as described above, it is characterized in that, comprise the following steps: solar power system converts solar energy into electrical energy, and by power storage; When outdoor temperature reaches set temperature value, the temperature detect switch (TDS) closure, the electric energy that solar power system produces is the fan power supply, fan work; When outdoor temperature does not reach set temperature value, temperature detect switch (TDS) disconnects, and stops as the fan power supply, and fan is not worked.

Concrete, solar panel converts solar energy into electrical energy, and by controller to charge in batteries, with storage of electrical energy; When outdoor temperature reaches set temperature value, the temperature detect switch (TDS) closure, make conducting between controller and fan, and controller is controlled battery discharging or directly received the electric energy from solar panel, is fan power supply, fan work; When outdoor temperature does not reach setting temperature, temperature detect switch (TDS) disconnects, and makes to disconnect between controller and fan, stops as the fan power supply, and fan is not worked.

As a kind of preferred version of automatic ventilating method, when outdoor temperature reaches set temperature value, the temperature detect switch (TDS) closure, and detect while having the user when induction switch, the induction switch closure, powered to fan, fan work; Otherwise fan is not worked.

Concrete, when outdoor temperature reaches set temperature value, the temperature detect switch (TDS) closure, and when induction switch detects while having the user, the induction switch closure, make conducting between controller and fan, and controller is controlled battery discharging or directly received the electric energy from solar panel, for fan power supply, fan work; When induction switch does not detect while having the user, induction switch disconnects, thereby makes to disconnect between controller and fan, even outdoor temperature reaches set temperature value, fan is not worked yet.By described design, make the electric energy effective rate of utilization maximize, fully reach energy-conservation purpose.

The beneficial effects of the utility model are: by support, solar power system and fan being set out of doors, and between arranges temperature detect switch (TDS), not only can utilize solar energy, save civil power, can also make fan open and close automatically according to the temperature of setting, do not need manual monitoring, saved the labour force; By the induction switch of connecting with temperature detect switch (TDS) is set between solar power system and fan, while making temperature arrive specified value, also need whether to have user's ability automatic start-stop fan according to reality, so just can make the use of fan more rationalize and validation, further save the consumption of the energy; By solar panel being adopted to BIVP type photovoltaic module, the repertoire of ceiling that made solar panel possess, substituted ceiling fully, so just saved the use of ceiling material, reduced manufacture cost; By between controller and temperature detect switch (TDS), inverter being set, can make the direct current energy of solar panel be converted to AC energy, and then the use of applicable ac fan, the contrast prior art, that this outdoor automatic ventilating system has advantages of is simple in structure, easy to use, start and stop work is simple, energy consumption is few, and solar panel is replaced to sunshade and the ceiling of the use of taking shelter from rain, further reduced the cost of manufacturing.

The accompanying drawing explanation

The structural representation that Fig. 1 is the described outdoor automatic ventilating of embodiment one system;

The fundamental diagram that Fig. 2 is the described outdoor automatic ventilating of embodiment one system;

The structural representation that Fig. 3 is the described outdoor automatic ventilating of embodiment two system;

The fundamental diagram that Fig. 4 is the described outdoor automatic ventilating of embodiment two system.

In figure:

1, support; 2, solar power system; 3, fan.

Embodiment

Embodiment one

As shown in Fig. 1～2, the outdoor automatic ventilating system described in this embodiment, comprise support 1, and solar power system 2 and fan 3 are set on support 1, and fan 3 is connected with solar power system 2, take and power for fan 3 by solar power system 2.

Solar power system 2 comprises that two are solar panel, controller and the storage battery be arranged in parallel, wherein solar panel is for being converted to electric energy by solar energy, storage battery is for storing or discharging electric energy, and controller is for carrying out power supply control and storage battery is carried out to charge/discharge control fan 3.

The output terminal of solar panel is connected with the input end of controller, and the output terminal of controller is connected with the input end of storage battery and fan 3 respectively, and temperature detect switch (TDS) also is set between fan 3 and controller.The fan 3 of the present embodiment is DC fan.

In the present embodiment, solar panel is selected the amorphous silicon BIPV type photovoltaic module of 50W, and the standard operation voltage of solar panel is 50V, and the standard operation electric current is 1.3A; The quantity of fan 3 is one.

Use as above-mentioned outdoor automatic ventilating system is carried out the method for automatic ventilating, as shown in Figure 2, convert solar energy into electrical energy by solar panel, and by controller to charge in batteries; When outdoor temperature reaches set temperature value, the temperature detect switch (TDS) closure, make conducting between controller and fan, and it is the fan power supply that controller is controlled storage battery, fan work; When outdoor temperature does not reach setting temperature, temperature detect switch (TDS) disconnects, and makes to disconnect between controller and fan, and storage battery stops as the fan power supply, and fan is not worked.

Embodiment two

As shown in Fig. 3～4, the outdoor automatic ventilating system described in this embodiment, comprise support 1, and solar power system 2 and fan 3 are set on support 1, and fan 3 is connected with solar power system 2, by solar power system 2, to give fan 3 power supplies.

Solar power system 2 comprises that three are solar panel, controller and the storage battery be arranged in parallel, wherein solar panel is for being converted to electric energy by solar energy, controller is for fan 3 is carried out power supply control and storage battery is carried out to charge/discharge control, and storage battery is for storing or the release electric energy.

The output terminal of solar panel is connected with the input end of controller, the output terminal of controller is connected with the input end of storage battery and inverter respectively, the output terminal of inverter is connected with the input end of ac fan 3, temperature detect switch (TDS) and induction switch also are set between ac fan 3 and inverter, and temperature detect switch (TDS) and induction switch are connected in series.

In the present embodiment, solar panel is selected the amorphous silicon BIPV type photovoltaic module of 50W, and the standard operation voltage of solar panel is 50V, and the standard operation electric current is 1.3A, and the quantity of fan 3 is two, and is series connection setting.

Use as above-mentioned outdoor automatic ventilating system is carried out the method for automatic ventilating, as shown in Figure 4, convert solar energy into electrical energy by solar panel, and by controller to charge in batteries; When outdoor temperature reaches set temperature value, the temperature detect switch (TDS) closure, and when induction switch is sensed the user, the induction switch closure, conducting between this Time Controller and fan, it is the fan power supply that controller is controlled battery discharging, fan work; When outdoor temperature does not reach setting temperature, temperature detect switch (TDS) disconnects, even induction switch is sensed the user, the induction switch closure, but because induction switch and temperature detect switch (TDS) are the settings of connecting, therefore still be off state between controller and fan, and then controller stops as the fan power supply, fan is not worked; When temperature reaches setting temperature, the temperature detect switch (TDS) closure, if now induction switch is not sensed the user, induction switch is off state, and because induction switch and temperature detect switch (TDS) are the settings of connecting, therefore still be off state between controller and fan, and then controller stops as the fan power supply, fan is not still worked.

Know-why of the present utility model has below been described in conjunction with specific embodiments.These are described is in order to explain principle of the present utility model, and can not be interpreted as by any way the restriction to the utility model protection domain.Explanation based on herein, those skilled in the art does not need to pay performing creative labour can associate other embodiment of the present utility model, within these modes all will fall into protection domain of the present utility model.

Claims (8)

1. an outdoor automatic ventilating system, it is characterized in that, comprise support, solar power system and fan are set on described support, and described fan is connected with described solar power system, take and power as described fan by described solar power system, between described fan and described solar power system, be provided with temperature detect switch (TDS).

2. outdoor automatic ventilating system according to claim 1, is characterized in that, between described fan and described solar power system, also is provided with the induction switch of connecting with temperature detect switch (TDS).

3. outdoor automatic ventilating system according to claim 1 and 2, is characterized in that, described solar power system comprises solar panel, for solar energy is converted to electric energy;

Storage battery, for storing or the release electric energy;

Controller, for carrying out power supply control and/or storage battery being carried out to charge/discharge control to fan.

4. outdoor automatic ventilating system according to claim 3, is characterized in that, described solar panel is BIPV type photovoltaic module.

5. outdoor automatic ventilating system according to claim 4, is characterized in that, the amorphous silicon BIPV type photovoltaic module that described solar panel is 50W.

6. outdoor automatic ventilating system according to claim 1 and 2, is characterized in that, but described fan is arranged at the position of user's perception air-supply information.

7. outdoor automatic ventilating system according to claim 6, is characterized in that, described fan is DC fan.

8. outdoor automatic ventilating system according to claim 3, is characterized in that, is provided for the direct current of solar panel output is converted to the inverter of Ac between described controller and fan, and described fan is ac fan.

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